High-precision bearings
SLF-High-precision bearings | Page 2
Content
1. Spindle bearings and high-speed spindle bearings 6
1.1. General
1.1.1. Spindle bearings
1.1.2. High-speed spindle bearings
1.2. Tolerances and standards
1.3. Designs
1.4. Materials
1.4.1. Outer and inner rings, balls
1.4.2. Cage
1.5. Contact angle
2. Bearing data 10
2.1. Tolerances and tolerance classes
2.2. Dimension groups for spindle bearings
2.3. Rotational speeds
2.4. Operating temperature
2.5. Noise
3. Universal bearings, bearing sets 17
3.1. Universal bearings „U“
3.2. Bearing arrangements
3.2.1. O-arrangement
3.2.2. X-arrangement
3.2.3. Tandem-arrangement
3.2.4. Multiple arrangement
3.2.4.1. TO- and TX-arrangement
3.2.4.2. TOT- and TXT-arrangement
3.3. Spacer rings
4. Hybrid spindle bearings 20
SLF-High-precision bearings | Page 3
Content
5. Sealed spindle bearings 21
6. Spindle bearing with direct lubrication 22
7. Bearing design calculation 23
7.1. General
7.2. Nominal rating life
7.3. Equivalent dynamic loading
7.4. Calculation of speed limit
7.5. Suspension and stiffness
7.6. Load-bearing capacity
7.7. Preloading
8. Installation tolerances of spindle bearings 27
8.1. Machining tolerances of the parts surrounding the bearings
8.2. Guidelines for machining of shafts
8.3. Guidelines for machining of housing bores
9. Installation 29
9.1. Preparation of installation
9.2. Greasing of bearings
9.3. Bearing installation
9.3.1. Installation with press
9.3.2. Installation with high bearing temperature
9.4. Bearing securing
9.4.1. Fastening with precision nuts
9.4.2. Fastening with housing cover
10. Bearing labelling 32
10.1. Content and location of label
10.2. Labelling schema for spindle bearings
11. Converting other makes to SLF product designation 34
SLF-High-precision bearings | Page 4
Content
12. Measurement tables 36
12.1. Spindle bearing from 36
12.2. High-speed spindle bearing from 55
13. High-precision cylindrical roller bearings 68
13.1. General
13.2. Heat treatment
13.3. Designs
13.4. Hybrid cylindrical roller bearings
13.5. Materials
14. Tolerances and tolerance classes 72
15. Bearing clearance 74
16. Bearing design calculation 75
16.1. General
16.2. Nominal rating life
16.3. Equivalent dynamic loading
17. Installation tolerances for cylindrical roller bearings 76
17.1. Machining tolerances of the parts surrounding the bearings
17.2. Guidelines for machining of cylindrical shafts
17.3. Guidelines for machining of tapered shafts
17.4. Guidelines for machining of housing bores
18. Installation 80
18.1. Preparation of installation
18.2. Greasing of bearings
18.3. Bearing installation
19. Bearing labelling 82
19.1. Content and location of label
19.2. Labelling schema for high-precision cylindrical roller bearings
SLF-High-precision bearings | Page 5
Content
20. Converting other makes to SLF product designation 83
21. Measurement tables 84
21.1. High-precision cylindrical roller bearings, single-row from 84
21.2. High-precision cylindrical roller bearings, double-row from 87
22. Terms and symbols according to DIN ISO 1132-1, DIN 620 90
22.1. Bore diameter
22.2. Shell diameter
22.3. Width
22.4. Corner radius
22.5. Variation in wall thickness
22.6. Running accuracy
22.6.1. Radial run-out
22.6.2. Axial run-out
22.6.3. Lateral run-out
23. Lubrication 93
23.1. General
23.2. Grease lubrication
23.2.1. Grease service life
23.2.2. Running-in of grease
23.2.3. Amount of grease
23.3. Oil lubrication
24. Terms of delivery 97
SLF-High-precision bearings | Page 6
1. Spindle bearings and high-speed spindle bearings
SLF-high-precision bearings are manufactured in single and double-row design as spindle bearings, high-speed spindle bearings and high precision cylindrical roller bearings.
SLF-high-precision bearings
SLF-High-precision bearings | Page 7
1. Spindle bearings and high-speed spindle bearings
1.1. General
Spindle bearings are a special design of single-row angular contact ball bearings. They are specifically implemented in the machine tool industry as well as in other areas of appli-cation, where the bearings are subject to high to extremely stringent requirements relating to the precision and/or the permissible rotational speeds. They have raceways in the inner and outer ring which are staggered relatively to one another towards the bearing‘s axis and can accommodate high radial and axial loads in one direction at the same
time. The force generated by radial loads in the bearing and applied in the direction of the axis must be compensated by an external opposing force. That is why they are always arranged against a second bearing. The spindle bearings are usually delivered with an universal design. They are dimensioned in such a way that they can be combined in any configuration. Thanks to the standardized outer dimensions it is possible to exchange them for one another and with sector-specific products.
1.1.1. Spindle bearings
Spindle bearings are manufactured in series B719, B70, B72 and A73. Even different material combinations and designs are possible, as described in the following chapters.
This rugged design is suited for many applications where there is a demand for a high load-bearing capacity and at the same time high rotational speeds.
Fig. 1.1. Spindle bearing
B719.. B70.. B72.. A73..
Fig. 1.2. Series of high-speed spindle bearings
SLF-High-precision bearings | Page 8
1. Spindle bearings and high-speed spindle bearings
1.1.2. High-speed spindle bearings
Based on their main dimensions, high-speed spindle bea-rings are identical to the B line of spindle bearings. They are distinguished in particular by their suitability for higher speeds, low friction and less heat development. High-speed spindle bearings are available in the series HS719 and HS70 as well as in different designs and mate-rial combinations.
1.2. Tolerances and standards
The main dimensions of the spindle bearings fulfill the general dimension plans for bearings according to DIN 616 (ISO 15). They are manufactured in dimensional series 19, 10, 02 and 03. The B719 and B70 series of bearings are designed in accordance with DIN 628-6.
1.3. Designs
To facilitate the installation of the cage and ensure the best-possible lubrication of the bearing during operation, one ring with a reduced rib diameter shall be used at least. The bea-rings are not dismountable.
Fig. 1.3. High-speed spindle bearing
HS719.. HS70..
Fig. 1.4. Series of high-speed spindle bearings
Design SLF-Series
B B719, B70, B72
A A73
HS HS719, HS70
SLF-High-precision bearings | Page 9
1. Spindle bearings and high-speed spindle bearings
1.4. Materials
1.4.1. Outer and inner rings, balls
SLF bearings are manufactured using vacuum degassed 100Cr6 chromium steel or a comparable material. The high degree of purity of the material ensures maximum reliabili-ty. The steel allows operating temperatures not exceeding 150°C without adversely affecting dimensional stability and hardness. Spindle bearings with ceramic balls and/or rolling bearing rings made of Cronidur 30 are used for special appli-cations (see Section 4. Hybrid spindle bearings).
1.4.2. Cage
Spindle bearings are generally equipped with a one-piece, solid window-type cage that is guided in the outer rib and constructed of a laminated fabric (cotton fabric that is imp-regnated with phenolic resin). This material ensures the pro-duction of compact, precise cages that are suited for high speeds. Since the cage, which is made of a laminated fabric, cannot be used at operating temperatures > 100°C, we re-commend using brass cages or PEEK cages.
1.5. Contact angle
The contact angle α is determined by the straight between the contact points ball/raceway and the radial plane. External loads are transferred from one bearing ring to another in the direction of the straights. To satisfy the different operating conditions, spindle bearings are usually manufactured with two different contact angles.
Other contact angles are possible upon request as an alternative. It must also be noted that the axial rigidity increases with the increasing contact angle, while the radial rigidity is smaller. Moreover, the size of the contact angle influences the speed limit, i.e. the greater the contact angle, the lower the speed limit. The contact angle is determined by design and may change under operating conditions, such as different operating temperatures of the bearing rings and centrifugal forces at maximum rotational speeds, external forces.
Fig. 1.5. Laminated phenolic resin cage Fig. 1.6. Brass cage
Contact angle Code
15° C
25° E
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2. Bearing data
2.1. Tolerances and tolerance classes
The following tolerance classes apply as a rule to the dimen-sion and run-out tolerances of the spindle bearings:
To ensure a wide variety of applications and thus a high qua-lity in terms of use, spindle bearings are normally manufac-tured at SLF for the tolerance class P4S, i.e. the connection parameters of the bearings have a P4 quality and important parameters for running characteristics, such as radial run-out, have P2 tolerances.
Tolerance classes Standards
P4 and P2 according to DIN 620-2
P4S according to DIN 628-6 (Standard)
P2S according to SLF in-house standard
SLF-High-precision bearings | Page 11
2. Bearing data
Inner ring (Dimensions in mm)
Nominal bore diameter
overto
1018
1830
3050
5080
80120
120180
180250
250315
315400
400500
Tolerance class P4 (Tolerances in µm)
Deviation ∆dmp, ∆ds1) 0-4
0-5
0-6
0-7
0-8
0-10
0-12
0-15
0-19
0-23
Roundness Vdp/2
Diameterseries 7 • 8 • 9 2 2,5 3 3,5 4 5 6 7,5 9,5 11
0 • 1 • 2 • 3 • 4 1,5 2 2,5 2,5 3 4 4,5 6 7 8,5
Variation Vdmp 2 2,5 3 3,5 4 5 6 8 10 12
Width deviation ∆Bs0
-800
-1200
-1200
-1500
-2000
-2500
-3000
-3500
-4000
-450
Width variation VBs 2,5 2,5 3 4 4 5 6 7 8 9
Radial runout Kia 2,5 3 4 4 5 6 8 8 10 10
Variation in inclination ofoutside cylindrical surfaceto bore
Sd 3 4 4 5 5 6 7 7 8 9
Assembled bearing inner ring face runout with raceway (axial runout)
Sia 3 4 4 5 5 7 8 10 12 13
1) Those data ∆ds and ∆Ds are only valid for diameter series 0 · 1 · 2 · 3 · 4.
Tolerance class P4
Outer ring (Dimensions in mm)
Nominal outside diameter
overto
1830
3050
5080
80120
120150
150180
180250
250315
315400
400500
500630
Tolerance class P4 (Tolerances in µm)
Deviation ∆Dmp, ∆Ds1) 0-5
0-6
0-7
0-8
0-9
0-10
0-11
0-13
0-15
0-20
0-25
Roundness VDp/2
Diameterseries 7 • 8 • 9 2,5 3 3,5 4 4,5 5 5,5 6,5 7,5 9 11
0 • 1 • 2 • 3 • 4 2 2,5 2,5 3 3,5 4 4 5 5,5 7 8,5
Variation VDmp 2,5 3 3,5 4 5 5 6 7 8 9 11
Width deviation VCs 2,5 2,5 3 4 5 5 7 7 8 9 10
Radial runout Kea 4 5 5 6 7 8 10 11 13 14 17
Variation in inclination of outside cylindrical surface to outer ring side face
SD 4 4 4 5 5 5 7 8 10 10 12
Assembled bearing outer ring face runout with raceway (axial runout) Sea 5 5 5 6 7 8 10 10 13 15 18
The width tolerance ∆Cs is identical to ∆Bs for the associated inner ring.
SLF-High-precision bearings | Page 12
2. Bearing data
Tolerance class P4S
Inner ring (Dimensions in mm)
Nominal bore diameter
overto
0 10
10 18
18 30
3050
50 80
80120
120 150
150 180
180 250
250 315
315 400
400 500
Tolerance class P4S (Tolerances in µm)
Deviation ∆dmp, ∆ds 0-4
0-4
0-5
0-6
0-7
0-8
0-10
0-10
0-12
0-15
0-19
0-23
RoundnessVdp/2
Row 8 • 9 2 2 2,5 3 3,5 4 5 5 6 7,5 9,5 11
Row 0 • 2 • 3 1,5 1,5 2 2,5 2,5 3 4 4 4,5 6 7 8,5
Variation Vdmp 2 2 2,5 3 3,5 4 5 5 6 8 10 12
Width deviation ∆Bs 0-40
0-80
0-120
0-120
0-150
0-200
0-250
0-250
0-300
0-350
0-400
0-450
Width variation VBs 1,5 1,5 1,5 1,5 1,5 2,5 2,5 4 5 6 7 8
Radial runout Kia 1,5 1,5 2,5 2,5 2,5 2,5 2,5 5 5 6 7 8
Variation in inclination of outside cylindrical surface to bore
Sd 1,5 1,5 1,5 1,5 1,5 2,5 2,5 4 5 6 7 8
Assembled bearing inner ring face runout with raceway (axial runout)
Sia 1,5 1,5 2,5 2,5 2,5 2,5 2,5 5 5 7 9 11
Outer ring (Dimensions in mm)
Nominal outside diameter
overto
10 18
18 30
30 50
50 80
80 120
120 150
150 180
180 250
250 315
315 400
400 500
500 630
Tolerance class P4S (Tolerances in µm)
Deviation ∆Dmp, ∆Ds 0-4
0-5
0-6
0-7
0-8
0-9
0-10
0-11
0-13
0-15
0-18
0-22
RoundnessVDp/2
Row 8 • 9 2 2,5 3 3,5 4 4,5 5 5,5 6,5 7,5 9 11
Row 0 • 2 • 3 1,5 2 2,5 2,5 3 3,5 5 4 5 5,5 7 8,5
Variation VDmp 2 2,5 3 3,5 4 5 5 6 7 8 9 11
Width variation VCs 1,5 1,5 1,5 1,5 2,5 2,5 2,5 4 5 7 7 8
Radial runout Kea 1,5 2,5 2,5 4 5 5 5 7 7 8 9 11
Variation in inclination ofoutside cylindrical surface to outer ring side face
SD 1,5 1,5 1,5 1,5 2,5 2,5 2,5 4 5 7 8 9
Assembled bearing outer ring face runout with raceway (axial runout)
Sea 1,5 2,5 2,5 4 5 5 5 7 7 8 10 12
The width tolerance ∆Cs is identical to ∆Bs for the associated inner ring.
SLF-High-precision bearings | Page 13
2. Bearing data
Tolerance class P2
Inner ring (Dimensions in mm)
Nominal bore diameter
overto
10 18
18 30
30 50
50 80
80120
120 150
150 180
180 250
250 315
315 400
Tolerance class P2 (Tolerances in µm)
Deviation ∆dmp, ∆ds 0 0 0 0 0 0 0 0 0 0-2,5 -2,5 -2,5 -4 -5 -7 -7 -8 -10 -13,5
Roundness Vdp/2 1,5 1,5 1,5 2 2,5 3,5 3,5 4 5 6
Variation Vdmp 1,5 1,5 1,5 2 2,5 3,5 3,5 4 5 6
Width deviation ∆Bs 0-80
0-120
0-120
0-150
0-200
0-250
0 -300
0-350
0-400
0-450
Width variation VBs 1,5 1,5 1,5 1,5 2,5 2,5 4 5 6 7
Radial runout Kia 1,5 2,5 2,5 2,5 2,5 2,5 5 5 6 7
Variation in inclination of outside cylindrical surface to bore
Sd 1,5 1,5 1,5 1,5 2,5 2,5 4 5 6 7
Assembled bearing inner ring face runout with raceway (axial runout)
Sia 1,5 2,5 2,5 2,5 2,5 2,5 5 5 7 7
Outer ring (Dimensions in mm)
Nominal outside diameter
overto
1830
3050
5080
80120
120150
150180
180250
250315
315400
400500
500630
Tolerance class P2 (Tolerances in µm)
Deviation ∆Dmp, ∆Ds0
-40
-40
-40
-50
-50
-70
-80
-80
-100
-120
-15
Roundness VDp/2 2 2 2 2,5 2,5 3,5 4 4 5 6 8
Variation VDmp 2 2 2 2,5 2,5 3,5 4 4 5 6 8
Width variation VCs 1,5 1,5 1,5 2,5 2,5 2,5 4 5 7 8 9
Radial runout Kea 2,5 2,5 4 5 5 5 7 7 8 10 13
Variation in inclination ofoutside cylindrical surface to outer ring side face
SD 1,5 1,5 1,5 2,5 2,5 2,5 4 5 7 8 10
Assembled bearing outer ring face runout with raceway (axial runout)
Sea 2,5 2,5 4 5 5 5 7 7 8 10 13
The width tolerance ∆Cs is identical to ∆Bs for the associated inner ring.
SLF-High-precision bearings | Page 14
2. Bearing data
Tolerance class P2S
Tolerances of tolerance class P2 that are further restricted are established as in-house tolerance class P2S.
These bearings satisfy the most stringent precision require-ments and are suited for maximum rotational speeds.
Inner ring (Dimensions in mm)
Nominal bore diameter overto
0 10
10 18
18 30
3050
50 80
80120
120 150
Tolerance class P2S (Tolerances in µm)
Deviation ∆ds, ∆dmp 0 0 0 0 0 0 0-2 -2 -2 -2,5 -4 -5 -6
RoundnessVdp/2
Row 8 • 9 1 1 1 1,5 2 2 2,5
Row 0 • 2 1 1 1,5 1,5 1,5 2 2,5
Width deviation ∆Bs 0-25
0-25
0-25
0-25
0-25
0-50
0-50
Width variation VBs 1 1 1 1,3 1,3 2 2
Radial runout Kia 1,3 1,3 1,5 1,5 2 2 2,5
Variation in inclination of outside cylindrical surface to bore Sd 1,3 1,3 1,3 1,3 1,3 2 2
Assembled bearing inner ring face runout with raceway (axial runout) Sia 1,3 1,3 2 2 2 2 2,5
Outer ring (Dimensions in mm)
Nominal outside diameter overto
10 18
18 30
30 50
50 80
80 120
120 150
150 180
Tolerance class P2S (Tolerances in µm)
Deviation ∆Ds, ∆Dmp 0 0 0 0 0 0 0-2,5 -3,5 -3,5 -3,5 -4 -4 -6
RoundnessVDp/2
Row 8 • 9 1 2 2 2 2 2 3
Row 0 • 2 1 1,5 1,5 1,5 2 2 2,5
Width variation VCs 1 1 1 1,3 2 2 2
Radial runout Kea 1,5 2 2 2,5 3 3 3,5
Variation in inclination of outside cylindrical surface to outer ring side face SD 1,3 1,3 1,3 1,3 2,5 2,5 2,5
Assembled bearing outer ring face runout with raceway (axial runout) Sea 1,5 2 2 3 4 4 4
The width tolerance ∆Cs is identical to ∆Bs for the associated inner ring.
SLF-High-precision bearings | Page 15
2. Bearing data
2.2. Dimension groups for spindle bearings
In case of spindle bearings, the dimension tolerances with regard to bore and outer diameter are divided into three ranges. The middle variation of the range is written down as
actual value in μm on the outer ring (e.g. < -3 >) or inner ring (e.g. < -1 >).
2.3. Rotational speeds
Spindle bearings are especially well suited for high rotational speeds. Factors that influence the rotational speed:
• Operating temperatures: special consideration of heat dissipation • Lubrication:whenlubricatingwithgrease,onlyapprox. 65% of the achieved speed of oil lubrication • Dimensional series: The smaller the bearing‘s cross- section, the better it is suited for high speeds. • Preload: The permissible speed decreases with the increasing preload. • Installationlayout:Themax.speedisattainedwiththe installation of a single bearing. In case of bearing sets consisting to two or more bearings, the speed reduces accordingly. (Section 7.4.) • Contact angle: The speed limit decreases with the increasing contact angle. • Precision:Thespeedlimitincreaseswiththeincreasing precision. • Precisemachiningofthebearingseats • Cagetype:lowcageweightmeanslessimbalance;the guidance at the rib diameter of the outer ring also allows the cage to center itself.
Correction factors, with which the prescribed speeds are to be multiplied for the spindle bearings:
These values are guidelines, applicable to a fixed preloading under optimal working conditions like installation tolerances, operating temperatures, lubrication, etc. The dynamic balan-cing level is important for ensuring good movement.
Bearing properties Correction factor
Accuracy
P4 0,9
P4S 1
P2 1,1
P2S 1,15
Contact angle
15° 1
25° 0,9
Lubricant
oil 1
grease 0,65
SLF-High-precision bearings | Page 16
2. Bearing data
2.4. Operating temperature
SLF spindle bearings are heat treated such that they are dimensionally stable up to an operating temperature of 150°C. The operating temperatures of the cages, the bearing seal and the lubricant can further restrict the upper operating temperature of the bearing.
2.5. Noise
The noise level of the spindle bearings is a sign of their quality and the running characteristics of the bearings. Since bearing noise is caused by any existing irregularities, undulation and roughness, particular attention is placed on ensuring maximum quality especially with regard to the above characteristics during production. Appropriate measuring technology is used to support this process. All bearings undergo full quality control testing with regard to noise with the aid of specific noise testing equipment, ensuring that we only deliver bearings that satisfy high standards. This test also provides feedback relating to the cleanliness of the bearings.
If it is possible, the bearing temperature at the outer ring should not exceed 80°C. If applicable, the bearings are to be cooled, e.g., by means of the housing cooling system or circulating oil lubrication.
Part Upper temperature range
Roller bearing rings 150°C
Laminated phenolic resin cage (standard) 100°C
Brass cage 150°C
PEEK cage approx. 260°C (up to 150°C without performance restrictions)
Sealing discs of NBR (2RSD) 110°C
Lubricant grease L75 (standard) 120°C
SLF-High-precision bearings | Page 17
3. Universal bearings, bearing sets
3.1. „U“ universal bearings
SLF production portfolio also includes bearings with universally matched designs (UL, UM, US). Universal bearings „U“ are defined such that both sides of the inner and outer ring are properly aligned when exposed to a predefined axial force (preload force). In real terms, this means that if the inner rings of two identical spindle bearings are axially loaded (O-configuration), the result is precisely the preload force indicated by the bearing manufacturer:
• light(UL) • medium(UM) • heavy(US).
The X-arrangement behaves in a similar fashion, whereas the outer rings of both bearings are axially tensioned here. Spindle bearings in universal design (same size and same design) can be installed in any arrangement. A uniform load distribution is best achieved with SLF bearing sets that are already matched to one another during production. SLF moreover offers the following options for enabling a simple warehousing and ensuring a high flexibility:
• Two-piece sets, e.g. with the suffix DUL. That stands for a duplex bearing pair, where the dimensions of the bore and cladding diameter matched to one another and can be installed both in O (DB), X (DF) or T (DT) confi- guration. The evenness thus imparted is especially important for high speeds and high level of accuracy and are recommended by SLF. • Three-piecesets,e.g.withthesuffixTULalongthelines of the two-piece sets • Four-piecesets,e.g.withthesuffixQULalongthelines of the two-piece sets
3.2. Bearing arrangements
3.2.1. O-arrangement (DB suffix)
The pressure lines drift apart in the direction of the bearing axis. That results in a large pitch on the bearing axis. A very rigid bearing against tilting moments is achieved by this arrangement and the bearing absorbs axial forces in both directions.
3.2.2. X-arrangement(DF suffix)
The pressure lines merge in the direction of the bearing axis. That results in a small pitch on the bearing axis. The tilting rigidity is lesser compared to 3.2.1. The configuration is less sensitive to misalignment. The bearing pressure and elasticity is along the lines of the O configuration.
3.2.3. Tandem-arrangement (DT suffix)
Both paired bearings are arranged parallel in the direction of the load, whereas a greater axial load than with individual bearings is possible in the direction of the load. Each of the two bearings accommodates an almost equal share of the axial load. It must be taken into account that the tandem pair must be preloaded in any case against a third bearing.
O-arrangement
X-arrangement
Tandem-arrangement
SLF-High-precision bearings | Page 18
3. Universal bearings, bearing sets
3.2.4. Multiple arrangement
In case of greater loads or demands for high rigidity, 3 or 4 or even 5 bearings in exceptional cases are assembled into sets and installed. Bearings matched in this manner are ma-nufactured, marked and packaged at SLF either in pairs or sets. These bearings have the same measurements in terms of bore and outer diameter.
3.2.4.2. TOT-arrangement (QBC suffix) and TXT-arrange-ment (QFC suffix)
Both arrangement are used as fixed bearings for high radial loads and high axial loads. These arrangement result in a very high rigidity. It is not appropriate to install more than three bearings directly next to one another, since heat dis-sipation would be worse and the supply of lubricant to all bearings more difficult. That‘s why spacer rings are to be used here.
3.2.4.1. TO-arrangement (TBT suffix) and TX-arrange-ment (TFT suffix)
Both of these arrangement are used like the tandem arran-gement to accommodate high axial loads in one direction. The additional third bearing is used for counter guidance and makes the multiple configuration a fixed bearing.
TO-arrangement TX-arrangement TOT-arrangement TXT-arrangement
SLF-High-precision bearings | Page 19
3. Universal bearings, bearing sets
3.3. Distance rings
Installing spacer rings (an inner and an outer ring respectively) between the matched bearings should result in the following:
• The bearing pitch with X and O configuration is increased. • Lubrication is improved, i.e. the supplyof oil to every bearing is possible and there is a grease reserve in case of grease lubrication. • The resulting frictional heat can be dissipated more readily. • Theuseofspacerringscanchangethepreloadingfor the X and/or O configuration. In real terms, that means: the inner spacer ring has a flimsier design than the outer ring and the preloading decreases with the X configura- tion or it increases with the O configuration. • The necessary measurement variances are available upon request.
During the production of spacer rings, particular attention must be placed on ensuring plane parallelism and evenness. Both spacer rings are to be surface-ground in a single step, if possible.
Tolerance class P0, P6, P5, P4 P2
Difference in the widths of the inner an outher distance rings 3,0 2,0
Variation of width 2,5 1,3
Axial run-out 2,5 1,3
SLF-High-precision bearings | Page 20
4. Hybrid spindle bearings
Hybrid spindle bearings are bearings with races consisting of bearing steel and balls made of a ceramic material (silicon nitride Si3N4) of maximum homogeneity and hardness. Ceramic balls are moreover lighter than steel balls. That results in less centrifugal forces and thus less friction. They are insulated with regard to electricity and they are not magnetic. They are also resistant to corrosion. These bearings are specifically designed as heavy-duty bearings for machine tool spindles and offer the prerequisites for a high productive capacity. Based on the positive characteristics of ceramics, the hybrid bearings are characterized by a considerably lower friction during operation and thus offer the following advantages compared to bearings with steel balls:
• approx.20%higherrotationalspeeds • betteroperationafterlubrication-systemfailure • higherstiffness • lessvibration • lessnoise • morefavorableaccelerationanddeceleration performance
Hybrid bearings were originally used specifically for high speed applications. Based on nearly same service life as bearings with steel balls they are also used in all other series of bearings.
Fig. 4.1. Hybrid spindle bearing
SLF-High-precision bearings | Page 21
5. Sealed spindle bearings
Spindle bearings of sealed design (2RSD) are also included in the SLF production portfolio as in the bearing tables. The greasing of these maintenance-free bearings is coordinated such that the bearings have a low temperature while running at high speeds over long periods. Thanks to their relatively simple installation, lubrication and maintenance, they are the optimum solution for customers with long useful life requi-rements.
Bearings of same size and series in unsealed design can be replaced with similar bearings in sealed design.
Fig. 5.1. Spindle bearing in 2RSD design
SLF-High-precision bearings | Page 22
6. Spindle bearing with direct lubrication
In case of applications with oil-based minimum quantity lub-rication, the lubricant can be directly supplied to the point of contact (ball/race) thanks to these designs.
The DLR design features a cir-cumferential lubrication groove and hole approx. Ø 0.5 mm at outer ring. Two radial grooves with installed O rings made of NBR (standard) ensure an optimum seal to the spindle housing.The user is responsible for ma-king the feed hole in the appro-priate location on the housing.
Fig. 6.1. Spindle bearing in DLR design
DLR-Design
SANA
NB SB
SLF-High-precision bearings | Page 23
7. Bearing design calculation
7.1. General
The design calculation for the basic load rating and service life of bearings is based on the standard DIN ISO 76 (Static Load Ratings) and DIN ISO 281 (Dynamic Load Ratings and Nominal Rating Life). These standards describe comprehen-sive design calculations. As a result, we will only focus on the fundamental design calculations below. These design calculations are used to provide an approximate assess-ment of a bearing.More in-depth bearing evaluations are possible by calcula-ting the Hertzian contact pressure between rolling elements and race while taking into account the actual lubrication conditions with the aid of specific calculation programs. Please contact our Design department in this regard.
7.2. Nominal Rating Life
The bearing‘s rating life is indicated by the number of revolutions or hours of running until the bearing shows the first signs of damage. The most frequent causes are wear and tear, seizing up, and overheating due to over- loading (mechanical and thermal) as well as material fatigue. The most frequent cause for failure in high-speed applications is overheating followed by the bearing seizing up.According to DIN ISO 281, the nominal rating life of a group of same model spindle bearings with the same contact angle is calculated as follows:
L10 = (K * Cr
Pr)3 in millions of revolutions
L10h =L10* 106
60 * nin hours
L10Nominal rating life in millions of revolutions with 10% failure probability
L10hNominal rating life in hours with 10% failure probability
Cr Dynamic radial load rating in N
K Correction factor, depends on the number of spindle bearings „i“: K=i0,7
Pr Dynamic equivalent radial loading in N
Fa Axial load of bearing group in N
Fr Radial load of bearing group in N
n Revolutions in min-1
SLF-High-precision bearings | Page 24
7. Bearing design calculation
7.3. Equivalent dynamic loading
If bearing are exposed to radial and axial loading at the same time, these loads are compiled to an equivalent load for the purpose of calculating the rating life. The equivalent dynamic loading is calculated as follows:
7.4. Calculation of speed limit
The number of bearings, their arrangement, loading (air or preloading), outer load and lubrication on the one hand and heat dissipation on the other hand are decisive factors for speed. The speeds indicated in the bearing tables are to be considered as guidelines and may vary in both directions de-pending on the above conditions. The cited speeds are not attained in case of installation of rigidly preloaded bearings as well as pairs and sets of bearings. The following table out-lines the corresponding factor for calculating the appropriate speed. This results in any case in a speed reduction.
Both factors X and Y depend on the ratio of the axial-to-radial load Fa/Fr while compared to the bearing-specific factor e.
Pr = X * Fr + Y * Fa (in N)
Individual bearings or tandem-arrangement Fa/ Fr ≤ e Fa/ Fr > e
a Fa/ (i*CO) e X Y X Y
15° 0,015 0,38 1 0 0,44 1,47
15° 0,029 0,4 1 0 0,44 1,4
15° 0,058 0,43 1 0 0,44 1,3
15° 0,087 0,46 1 0 0,44 1,23
15° 0,12 0,47 1 0 0,44 1,19
15° 0,17 0,5 1 0 0,44 1,12
15° 0,29 0,55 1 0 0,44 1,02
15° 0,44 0,56 1 0 0,44 1,0
15° 0,58 0,56 1 0 0,44 1,0
25° - 0,68 1 0 0,41 0,87
Bearings installed in X- or O- arrangement Fa/ Fr ≤ e Fa/ Fr > e
a Fa/ (i*CO) e X Y X Y
15° 0,015 0,38 1 1,65 0,72 2,39
15° 0,029 0,4 1 1,57 0,72 2,28
15° 0,058 0,43 1 1,46 0,72 2,11
15° 0,087 0,46 1 1,38 0,72 2,0
15° 0,12 0,47 1 1,34 0,72 1,93
15° 0,17 0,5 1 1,26 0,72 1,82
15° 0,29 0,55 1 1,14 0,72 1,66
15° 0,44 0,56 1 1,12 0,72 1,63
15° 0,58 0,56 1 1,12 0,72 1,63
25° - 0,68 1 0,92 0,67 1,41
Rotational speed reduction for spindle bearing sets (n • fr)
Factor fr
Bearing preload
light medium heavy/high
Bearing spacing large L M S
O O 0,85 0,75 0,50
O O O O 0,80 0,70 0,50
O O O O O 0,75 0,65 0,45
Fixedbearing
Movable bearing L M S
O O O O 0,75 0,60 0,35
O O O O 0,65 0,50 0,30
O O O O O 0,65 0,50 0,30
O O O O O O 0,72 0,57 0,37
O O O O O O 0,54 0,40 0,37
n corresponds to the rotational speed according to the catalogue
SLF-High-precision bearings | Page 25
7. Bearing design calculation
7.5. Suspension and stiffness
Thanks to bearings free of clearance, a very high running ac-curacy is achieved even when subject to varying loads. The required stiffness and the type of loading determine how the bearings are arranged and preloaded. Arranging bearings in sets significantly increases the stiffness. The values indica-ted in the bearing tables for axial stiffness are for bearing pairs in O or X arrangement. Bearing sets with three or more bearings yield higher values for axial stiffness.The radial stiffness can be calculated with the aid of a factor from the axial stiffness as follows:
7.6. Load-bearing capacity
The dynamic load rating for bearing sets with bearings matched in any configuration is obtained by multiplying the load rating C for the individual bearing with
If more than two bearings are combined into sets, the axial stiffness is increased. The following table illustrates the cal-culation of this stiffness for concentrically acting axial force.
The static load rating is obtained by multiplying the table-cited value C0 with 2 or 3, 4 or 5.
Combination SaKaE (lifting force)
α = 15° und α = 25°
N/µm N
DB Sa 3*FV
TBT 1,64 * Sa 6*FV
QBC 2 * Sa 6*FV
QBT 2,24 * Sa 9*FV
1,62 for sets with 2 bearings
2,16 for sets with 3 bearings
2,64 for sets with 4 bearings
3,09 for sets with 5 bearings
Sr ≈ 6*Sa für α = 15°
Sr ≈ 2*Sa für α = 25°
SLF-High-precision bearings | Page 26
7. Bearing design calculation
7.7. Preloading
The predefined axial forces (preload forces) are: light (L), medium (M) and heavy (S). The preload forces indicated in the bearing tables apply to the axial pretensioning of bearing pairs (in O- or X- arrangement). In case of a combination of more than two bearings, the preloading values are to be multiplied as follows.
Preloading refers to a constant axial loading that is applied to the bearing. It has a major impact on
•theattainablespeeds •thestiffness •thepermissibleloads
The pretensioning should only be as large as is necessary. The standard design has a light pretensioning (UL), which may be generated firmly (bearings pretensioned against one another) or elastically (with springs).
Fixed preloading (axially mounted): • thermal effects may increase considerably – major impact on max. attainable speed.
Elastic preloading (springs): • thermaleffectiseliminatedforthemostpartwithsprings –max.attainablespeedsarehardlyinfluenced.Incase of high speeds, a minimum preloading is necessary. This depends on the outer axial load. The lifting force is the limit of the outer axial load, above which the impact of the preloading is raised in case of disburdened ball valves.
The related effects include: • Ballsandracesarenolongerconstantlyincontact • Slidingfrictionincreases • Wearincreases • Usefullifedecreases
Combination Factor
DB, DF 1
TBT, TFT 1,35
QBC, QFT 1,6
QBC, QFC 2
SLF-High-precision bearings | Page 27
8. Installation tolerances of spindle bearings
The high capacity of spindle bearings is only guaranteed if the accuracy of the relevant adjacent parts are adapted according to the precision of bearings. This is necessary since the rings of the spindle bearings, especially the dimensional series with low cross-sections, adapt to the shape of the shaft or the housing bore. This can result in defects in form and misalignment, which cause increased operating temperatures. The higher the required speeds and levels of precision are for the bearing, the more these faults become evident. The average roughness Ra of the bearing seats must be complied with in order to ensure that the corresponding fit only varies very slightly in case of installation (smoothing of surfaces).
Fig. 8.1. Machining of shaft
t3/300t3/300
t1
ABt2
A B
d d
8.2. Guidelines for machining of shafts
Nominal size of shaft d (in mm)
Dimension for d
Tolerance class of bearing
General recom-mendation a. p. ISO 286
overto
610
1018
1830
3050
5080
80120
120180
180250
250315
315400
400500
Dimensions and tolerances - empirical values (in µm)
light seat P5/P4/P4S h4 0 0 0 0 0 0 0 0 0 0 0-4 -4 -4 -6 -6 -8 -9 -11 -12 -14 -15
P2/P2S h3 0-3
0-3
0-3
0-4
0-4
0-5
0-6
0-8
0-10
0-10
0-12
fixed seat P5/P4/P4S js4 2 2,5 3 3,5 4 5 6 7 8 9 10-2 -2,5 -3 -3,5 -4 -5 -6 -7 -8 -9 -10
P2/P2S js3 1,25 1,5 2 2 2,5 3 4 5 6 6,5 7,5-1,25 -1,5 -2 -2 -2,5 -3 -4 -5 -6 -6,5 -7,5
Cylindrical form t1
P5/P4/P4SP2/P2S
IT0 1 1 1 1,5 1,5 1,5 2 3 4 5 60,5 0,5 0,8 1 1 1 1,2 2 2,5 3 4
Axial run-out t2
P5/P4/P4SP2/P2S
IT1 1 1 1 1,5 1,5 2,5 3,5 4,5 6 7 8
0,5 0,5 0,8 1 1 1,5 2 3 4 5 6
Concen-tricity t3
P5/P4/P4SP2/P2S
IT3 2 2 2 3 3 4 5 7 8 9 101 1 1 2 2 2,5 3,5 4,5 6 7 8
Average roughness Ra
0,2 0,2 0,2 0,2 0,4 0,4 0,4 0,4 0,8 0,8 0,8
8.1. Machining tolerances of the parts surrounding the bearings
SLF-High-precision bearings | Page 28
8. Installation tolerances of spindle bearings
D
B
A
A
D
ABt2
t1
t3/300t3/300
Fig. 8.2. Machining of housing bores
8.3. Guidelines for machining of housing bores
Nominal size of housing bore D (in mm)
Dimension for D
Tolerance class of bearing
General recom-mendation a. p. ISO 286
overto
1018
1830
3050
5080
80120
120180
180250
250315
315400
400500
500630
Dimensions and tolerances - empirical values (in µm)
Floating bearings P5/P4/P4S H5 12
2122
122
155
155
155
217
248
279
3010
3311
P2/P2S H4 50
50
72
102
104
124
144
165
185
206
227
Fixed bearings P5/P4/P4S JS5 10
0100
100
122
122
122
122
142
152
162
193
P2/P2S JS4 3-2
3-2
3-2
5-3
5-3
5-3
7-4
8-4
9-5
10-5
11-6
Cylindrical form t1
P5/P4/P4SP2/P2S
IT1 1,51
1,51
1,51
21,5
21,5
32
4,53
64
75
86
97
Axial runout t2
P5/P4/P4SP2/P2S
IT2 1,51
1,51
1,51
21,5
51,5
32
4,53
64
75
86
97
Concentric-ity t3
P5/P4/P4SP2/P2S
IT3 54
54
65
65
86
86
108
129
1310
1511
1612
Average roughness Ra
0,4 0,4 0,4 0,4 0,8 0,8 0,8 1,6 1,6 1,6 1,6
SLF-High-precision bearings | Page 29
9. Installation
9.3. Bearing installation
9.3.1. Installation with press
Apply a thin film of oil to the shaft. During pressing, no forces may be transferred via the rolling elements. Press the bea-ring on evenly over the inner ring up to the shaft shoulder with the aid of a suitable installation tool. Avoid a canting of the rings.
After cooling the inner ring, press on the shaft should again and check the axial and radial running accuracy.
9.1. Preparation of installation
Super precision bearings fulfill the stringent requirements on cleanliness and precision. The bearings should be installed with the utmost care. Make sure that they are installed in a room that is as clean as possible and free of dust with regulated temperature. Prior to installing the bearings, the dimensional accuracy of the connecting parts must be checked. Only provide and use tools that are suited for installation. In case of bearing sets, preferably combine bearings that have the same diameter grades (actual values). Only open the bearing packages right before the installation. Remove excessive anti-corrosion oil with the aid of a clean lint-free cloth.
9.2. Greasing of bearings
In case of greasing and incompatibility of the anti-corrosion oil with the provided grease, the bearings are to be washed using a low-viscosity oil or kerosene and dry. After- wards, grease the bearings with the recommended amount of grease with the aid of syringe or spatula in the same amount between the rolling elements, preferably the inner race, and then turn by hand to ensure that the grease is distributed evenly in the bearing. (The information on recommended amount of grease can be found in Section 23.2.3. Amount of grease.)
9.3.2. Installation with high bearing temperature
Heating up the inner ring, e.g. by using an inductive hea-ting device simplifies the installation of the inner rings. The greater the overlap of the inner race fit, the greater the tem-perature must be. This may not exceed 120°C, however.Subsequent temperature differences in Kelvin (K) are recom-mended:
Shaft tolerance/Bore j5 k5 m5 n6 p6 r5
d < 80 50 60 70 80 100 100
80 < d < = 180 40 40 45 55 65 75
180 < d < = 315 30 35 40 45 50 60
315 < d < = 500 30 30 35 40 45 55
SLF-High-precision bearings | Page 30
9. Installation
9.4. Bearing securing
9.4.1. Fastening with precision nuts
The inner rings are tensioned with a lock nut. The recom-mended tightening torque creates the clamping force that safely overcomes the preloading of the bearings in case of an O or multiple bearing arrangement. To avoid any signs of setting, first tighten the nuts with two to three times the tightening torque, then loosen and tighten the nuts to the recommended tightening torque.
Series 719 Series 70 Series 72
BKZ d Thread Ma Fz Ma Fz Ma Fz
02 15 M15x1 1,54 0,85 1,98 1,09 2,13 1,17
03 17 M17x1 1,49 0,73 2,28 1,12 2,66 1,30
04 20 M20x1 2,52 1,06 3,99 1,68 5,17 2,18
05 25 M25x1,5 3,91 1,30 6,31 2,10 7,89 2,63
06 30 M30x1,5 6,97 1,96 9,77 2,75 13,5 3,78
07 35 M35x1,5 9,35 2,28 14,5 3,52 20,6 5,01
08 40 M40x1,5 14,6 3,13 19,1 4,11 27,4 5,88
09 45 M45x1,5 18,2 3,49 24,5 4,70 32,4 6,22
10 50 M50x1,5 20,6 3,57 29,0 5,03 37,6 6,53
11 55 M55x2 28,9 4,52 42,1 6,59 52,6 8,22
12 60 M60x2 31,5 4,53 50,3 7,24 72,5 10,4
13 65 M65x2 39,4 5,25 57,6 7,67 96,1 12,8
14 70 M70x2 52,2 6,48 76,6 9,51 113 14,0
15 75 M75x2 60,9 7,08 87,3 10,1 120 14,0
16 80 M80x2 71,4 7,79 106 11,6 148 16,1
17 85 M85x2 105 10,8 124 12,7 193 19,8
18 90 M90x2 107 10,4 153 14,9 231 22,5
19 95 M95x2 110 10,2 169 15,7 276 25,5
20 100 M100x2 161 14,1 187 16,5 339 29,8
21 105 M105x2 163 13,6 214 18,0 381 31,9
22 110 M110x2 178 14,3 273 21,9 458 36,7
24 120 M120x2 238 17,5 322 23,7 512 37,7
26 130 M130x2 309 21,1 442 30,1 653 44,5
BKZ Bore number
d Bore diameter in mm
Ma Tightening torque in Nm
Fz Resulting clamping force in kN
Recommended tightening torques for axial tension of the bearing inner rings with the aid of nut
SLF-High-precision bearings | Page 31
9. Installation
9.4.2. Fastening with housing cover
Especially in case of an X arrangement and fixed bearing, the outer rings are usually preloaded with the housing cover. Since the width tolerance especially of the adjusted spindle bearings is relatively large, the cover must be adjusted in par-ticular. Prior to tightening the cover screws, it is necessary to ensure that the following gap is maintained between the cover and the housing.
Fig. 9.1. Fastening with housing cover
a
Series 719 Series 70 Series 72
BKZ d Thread Ma Fz Ma Fz Ma Fz
28 140 M140x2 357 22,6 509 32,2 886 56,1
30 150 M150x2 494 29,2 598 35,4 1 172 69,4
32 160 M160x3 564 31,1 765 42,1 1 509 83,1
34 170 M170x3 634 32,9 903 46,9 1 738 90,2
36 180 M180x3 831 40,8 1 217 59,8 1 933 94,9
38 190 M190x3 922 42,9 1 349 62,8 2 392 111
40 200 M200x3 1 172 51,9 1 550 68,6 2 916 129
44 220 Tr220x4 1 417 56,8 2 185 87,6 3 863 155
48 240 Tr240x4 1 675 61,7 2 578 94,9
52 260 Tr260x4 2 474 84,2
56 280 Tr280x4 2 853 90,3
60 300 Tr300x4 3 952 117
64 320 Tr320x5 4 495 124
68 340 Tr340x5 5 051 132
72 360 Tr360x5 5 640 139
84 420 Tr420x5 8 718 185
92 460 Tr460x5 12 991 252
500 500 Tr500x5 16 000 285
Bearing bore Housing cover gap a
< = 100 mm 0,01 to 0,03 mm
> 100 mm 0,02 to 0,04 mm
SLF-High-precision bearings | Page 32
10. Bearing labelling
10.1. Content and location of label
The rolling bearings usually have a labelling with the fol-lowing contents:
• SLFbrandname • Productdesignation,e.g.„B71910C.T.P4S.UL“ • Countryofproduction:MADEINGERMANY • In-plantinformationforproductionperiod,e.g.„121H“
The bearing label is usually located on the flat side of the outer ring. In case of spindle bearings, the actual dimensions of the outer diameter and bore as well as the width are provided as current value in μm as follows:
If the marking is only provided on the inner ring:
The actual bearing width is written without deviation on the labelofthepackage(e.g.*–1/–3*).Theinnerringislabelledon a spot with the greatest wall thickness (race to bore) with a line.
Outer ring Example
The actual outer diameter and width are indicated between product designation and „MADE IN GERMANY“.
<– 3/– 80 >
< Dimension outer diameter/dimension width >
Inner ring Example
Actual bore diameter. <– 1 >
< Dimension bore diameter >
Inner ring Example
The actual bore and outer diameter and width are indicated between product desi-gnation and „MADE IN GERMANY“.
<– 1/ – 3/ – 80 >
< Dimension bore diameter/dimension outer diameter/dimension width >
SLF-High-precision bearings | Page 33
10.2. Labelling schema for spindle bearings
10. Bearing labelling
Design
B Standard with steel balls
HCB Standard with ceramic balls
XCB Standard with ceramic balls, rolling bearing rings made of Cronidur 30
A Standard with steel balls
HS High speed bearings with steel balls
HC High speed bearings with ceramic balls
XC High speed bearings with ceramic balls, rolling bearing rings made of Cronidur 30
Bearing series
719 light series
70 medium series
72 medium-heavy series
73 heavy series
Bore size
02 15 mm
03 17 mm
04 4*5 = 20 mm
05 5*5 = 25 mm
06 6*5 = 30 mm (etc.)
Contact angle
C 15°
E 25°
Direct lubrication
DLR Circumferential groove and radial feed hole and two radial grooves with O rings at the outer diameter
Seal
2RSD sealed and greased on both sides
RSDO sealed on one side, disc on the side of the large outer ring/rib diameter, ungreased
RSDX sealed on one side, disc on the side of the small outer ring/rib diameter, ungreased
Cage
T Window cage made of laminated fabric, guide on outer ring
MPA Window cage made of brass, guide on outer ring
ENPA Window cage made of PEEK, guide on outer ring
Precision
P4S Standard design according to in-house standard (run-out tolerances after P2)
K5 with additionally restricted bore and outer diameter tolerance of the respective tolerance class
P4 as per DIN 620-2
P2 as per DIN 620-2
P2S Tolerance as per in-house standard better than P2
Bearing arrangement
U Individual bearing suited for any configuration, designation of bearing sets in Section 3.2.
Pretensioning
L light
M medium
S heavy
Grease filling
- without
- for sealed bearings by default L75; or L252 as alternative
L75 L75 Klüberspeed Bf 72-22 from Klüber
L252 L252 Turmogrease Highspeed from Lubcon
Design
Bearing series
Bore size
Contact angle
Direct lubrication
B 719 10 C. DLR. 2RSD. T. P4S. U L. L252
Grease filling
Pretensioning
Bearing arrangement
Precision
Cage
Seal
SLF-High-precision bearings | Page 34
11. Converting other makes to SLF product designation
Make SLF FAG SKF SNFA NSK GMN
Series
B719 B719.. B719.. 719.. SEB.. 79.. S619
B70 B70.. B70.. 70.. EX.. 70.. S60
B72 B72.. B72.. 72.. E2.. 72.. S62.
A73 A73.. 73..
HS719 HS719.. HS719.. 719..(A)CE
HS70 HS70.. HS70.. 70..(A)CE
Contact angle
15° C C CD 1 C C
25° E E ACD 3 A5 E
Sealing
B7… .2RSD -2RSD
HS7… .2RSD HSS7…
Cage made of
laminated fabric .T(.TPA) -T(-TPA) ohne CE TR TA
Brass .MPA -MPA L
Universal design
Individual bearing .U -U G U SU U
Bearing pair .DU -DU DG DU DU DU
Bearing sets
2 bearings in O-arrangement .DB -DB DB DD DB DB
2 bearings in X-arrangement .DF -DF DF FF DF DF
2 bearings in T-arrangement .DT -DT DT T DT DT
3 bearings in TO-arrangement .TBT -TBT TBT TD DBD TBT
3 bearings in TX-arrangement .TFT -TFT TFT TF DFD TFT
3 bearings in T-arrangement .TT -TT TDT
4 bearings in TOT-arrangement .QBC -QBC QBC TDT DBB QBC
4 bearings in TXT-arrangement .QFC -QFC QFC TFT DFF QFC
4 bearings in 3TO-arrangement .QBT -QBT QBT 3TD DBT
4 bearings in 3TX-arrangement .QFT -QFT QFT 3TF DFT
4 bearings in T-arrangement .QT -QT QT QTC
SLF-High-precision bearings | Page 35
11. Converting other makes to SLF product designation
Make SLF FAG SKF SNFA NSK GMN
Pretensioning
Light L L A L L L
Medium M M B M M M
Heavy S H C F H S
Individual U..(N) V
Precision
P4 P4 P4 P4A 7 P4 P4
P4S P4S P4S P4A
P2 P2 P2 PA9A 9 P2 P2
P2S P2S A9
SLF-High-precision bearings | Page 36
B
D
d
a
rs
rs
r1s
rs
α
Contact angleα = 15°/25°
B...C/EHCB...C/EXCB...C/E
SANA
NBSB
DLR-design
B
D
d
a
r1s
rs
r1s
rs
α
B...C/E.2RSD
B
D
d
a
rs
r1s
rs
rs
α
Contact angleα = 15°/25°
A...C/E installation dimension
ra
raDada
rb
raDada
installation dimension
Contact angleα = 15°/25°
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) DLR-dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin r1s min dah12 DaH12 ramax rb max NB NA SB SA L M S L M S dyn C stat Co grease oil bearing kg
17 17 35 10 8 0,30 0,15 21,0 32,0 0,3 0,1 41 145 306 21,2 37,7 55,3 8,7 5,2 43 000 B7003C.2RSD.T.P4S.UL 0,040
17 35 10 11 0,30 0,15 21,0 32,0 0,3 0,1 54 220 485 48,0 81,2 112,5 8,2 5,0 38 000 B7003E.2RSD.T.P4S.UL 0,040
17 35 10 8 0,30 0,15 21,0 32,0 0,3 0,1 41 145 306 21,2 37,7 55,3 8,7 5,2 43 000 63 000 B7003C.T.P4S.UL 0,040
17 35 10 11 0,30 0,15 21,0 32,0 0,3 0,1 54 220 485 48,0 81,2 112,5 8,2 5,0 38 000 56 000 B7003E.T.P4S.UL 0,040
17 35 10 8 0,30 0,15 21,0 32,0 0,3 0,1 18 73 161 17,1 30,4 44,0 8,7 3,6 53 000 80 000 HCB7003C.T.P4S.UL 0,035
17 35 10 11 0,30 0,15 21,0 32,0 0,3 0,1 28 105 250 43,1 69,0 96,2 8,2 3,5 45 000 67 000 HCB7003E.T.P4S.UL 0,035
17 35 10 8 0,30 0,15 21,0 32,0 0,3 0,1 18 73 161 17,1 30,4 44,0 13,8 3,6 70 000 110 000 XCB7003C.T.P4S.UL 0,035
17 35 10 11 0,30 0,15 21,0 32,0 0,3 0,1 28 105 250 43,1 69,0 96,2 13,2 3,5 60 000 90 000 XCB7003E.T.P4S.UL 0,035
17 40 12 10 0,60 0,30 22,5 34,5 0,6 0,3 53 185 390 23,6 42,8 63,8 11,3 6,1 38 000 B7203C.2RSD.T.P4S.UL 0,060
17 40 12 13 0,60 0,30 22,5 34,5 0,6 0,3 75 290 625 54,0 90,6 126,0 10,8 5,9 36 000 B7203E.2RSD.T.P4S.UL 0,060
17 40 12 10 0,60 0,30 22,5 34,5 0,6 0,3 53 185 390 23,6 42,8 63,8 11,3 6,1 38 000 56 000 B7203C.T.P4S.UL 0,060
17 40 12 13 0,60 0,30 22,5 34,5 0,6 0,3 75 290 625 54,0 90,6 126,0 10,8 5,9 36 000 53 000 B7203E.T.P4S.UL 0,060
17 40 12 10 0,60 0,30 22,5 34,5 0,6 0,3 25 98 210 19,5 35,0 50,5 11,3 4,3 50 000 75 000 HCB7203C.T.P4S.UL 0,052
17 40 12 13 0,60 0,30 22,5 34,5 0,6 0,3 28 141 328 42,5 77,5 107,4 10,8 4,2 43 000 63 000 HCB7203E.T.P4S.UL 0,052
17 47 14 11 1,00 0,60 23,0 41,0 1,0 0,6 70 140 290 35,0 45,0 70,0 14,5 7,9 29 000 48 000 A7303C.T.P4S.UL 0,120
17 47 14 14 1,00 0,60 23,0 41,0 1,0 0,6 120 250 490 80,0 100,0 140,0 13,9 7,6 26 000 43 000 A7303E.T.P4S.UL 0,120
20 20 37 9 8 0,30 0,30 22,0 33,5 0,3 0,1 38 135 298 24,3 43,6 66,0 8,6 5,1 38 000 B71904C.2RSD.T.P4S.UL 0,034
20 37 9 11 0,30 0,30 22,0 33,5 0,3 0,1 41 172 391 47,0 84,1 118,3 8,2 4,9 36 000 B71904E.2RSD.T.P4S.UL 0,034
20 37 9 8 0,30 0,30 22,0 33,5 0,3 0,1 38 135 298 24,3 43,6 66,0 8,6 5,1 38 000 56 000 B71904C.T.P4S.UL 0,034
20 37 9 11 0,30 0,30 22,0 33,5 0,3 0,1 41 172 391 47,0 84,1 118,3 8,2 4,9 36 000 53 000 B71904E.T.P4S.UL 0,034
20 37 9 8 0,30 0,30 22,0 33,5 0,3 0,1 13 59 130 16,9 32,0 47,3 8,6 3,6 50 000 75 000 HCB71904C.T.P4S.UL 0,030
20 37 9 11 0,30 0,30 22,0 33,5 0,3 0,1 27 77 192 47,8 69,5 98,7 8,2 3,4 43 000 63 000 HCB71904E.T.P4S.UL 0,030
20 37 9 8 0,30 0,30 22,0 33,5 0,3 0,1 13 59 130 16,9 32,0 47,3 13,8 3,6 63 000 95 000 XCB71904C.T.P4S.UL 0,030
20 37 9 11 0,30 0,30 22,0 33,5 0,3 0,1 27 77 192 47,8 69,5 98,7 13,1 3,4 56 000 85 000 XCB71904E.T.P4S.UL 0,030
20 42 12 10 0,60 0,30 25,0 37,0 0,6 0,3 52 180 378 22,7 40,0 58,9 11,0 7,0 36 000 B7004C.2RSD.T.P4S.UL 0,069
20 42 12 13 0,60 0,30 25,0 37,0 0,6 0,3 71 277 599 51,6 86,6 119,2 10,5 6,7 32 000 B7004E.2RSD.T.P4S.UL 0,069
20 42 12 10 0,60 0,30 25,0 37,0 0,6 0,3 1,5 2,2 1,4 6,6 52 180 378 22,7 40,0 58,9 11,0 7,0 36 000 53 000 B7004C.T.P4S.UL 0,069
20 42 12 13 0,60 0,30 25,0 37,0 0,6 0,3 1,5 2,2 1,4 6,6 71 277 599 51,6 86,6 119,2 10,5 6,7 32 000 48 000 B7004E.T.P4S.UL 0,069
20 42 12 10 0,60 0,30 25,0 37,0 0,6 0,3 1,5 2,2 1,4 6,6 24 92 202 18,8 33,0 47,3 11,0 4,9 45 000 67 000 HCB7004C.T.P4S.UL 0,062
20 42 12 13 0,60 0,30 25,0 37,0 0,6 0,3 1,5 2,2 1,4 6,6 26 131 304 41,4 73,5 101,5 10,5 4,7 38 000 56 000 HCB7004E.T.P4S.UL 0,062
20 42 12 10 0,60 0,30 25,0 37,0 0,6 0,3 1,5 2,2 1,4 6,6 24 92 202 18,8 33,0 47,3 17,7 4,9 60 000 90 000 XCB7004C.T.P4S.UL 0,062
20 42 12 13 0,60 0,30 25,0 37,0 0,6 0,3 1,5 2,2 1,4 6,6 26 131 304 41,4 73,5 101,5 16,8 4,7 50 000 75 000 XCB7004E.T.P4S.UL 0,062
12.1. Spindle bearing
SLF-High-precision bearings | Page 37
B
D
d
a
rs
rs
r1s
rs
α
Contact angleα = 15°/25°
B...C/EHCB...C/EXCB...C/E
SANA
NBSB
DLR-design
B
D
d
a
r1s
rs
r1s
rs
α
B...C/E.2RSD
B
D
d
a
rs
r1s
rs
rs
α
Contact angleα = 15°/25°
A...C/E installation dimension
ra
raDada
rb
raDada
installation dimension
Contact angleα = 15°/25°
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) DLR-dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin r1s min dah12 DaH12 ramax rb max NB NA SB SA L M S L M S dyn C stat Co grease oil bearing kg
20 20 47 14 12 1,00 0,60 26,5 40,5 1,0 0,6 74 250 528 27,6 49,5 73,2 13,0 8,0 32 000 B7204C.2RSD.T.P4S.UL 0,108
20 47 14 15 1,00 0,60 26,5 40,5 1,0 0,6 105 392 844 63,1 104,9 145,0 12,3 7,7 30 000 B7204E.2RSD.T.P4S.UL 0,108
20 47 14 12 1,00 0,60 26,5 40,5 1,0 0,6 74 250 528 27,6 49,5 73,2 13,0 8,0 32 000 48 000 B7204C.T.P4S.UL 0,108
20 47 14 15 1,00 0,60 26,5 40,5 1,0 0,6 105 392 844 63,1 104,9 145,0 12,3 7,7 30 000 45 000 B7204E.T.P4S.UL 0,108
20 47 14 12 1,00 0,60 26,5 40,5 1,0 0,6 45 161 348 24,3 44,2 64,2 13,0 5,6 43 000 63 000 HCB7204C.T.P4S.UL 0,098
20 47 14 15 1,00 0,60 26,5 40,5 1,0 0,6 56 240 540 57,0 98,0 134,5 12,3 5,4 36 000 53 000 HCB7204E.T.P4S.UL 0,098
20 52 15 12 1,10 0,60 27,0 45,0 1,1 0,6 90 180 370 34,0 45,0 70,0 18,5 9,9 26 000 42 000 A7304C.T.P4S.UL 0,150
20 52 15 16 1,10 0,60 27,0 45,0 1,1 0,6 160 310 630 80,0 110,0 140,0 17,9 9,6 23 000 38 000 A7304E.T.P4S.UL 0,150
25 25 42 9 9 0,30 0,30 27,0 38,5 0,3 0,1 39 140 325 27,1 48,5 75,5 9,0 5,8 32 000 B71905C.2RSD.T.P4S.UL 0,040
25 42 9 12 0,30 0,30 27,0 38,5 0,3 0,1 41 188 429 54,4 98,0 137,8 8,5 5,5 30 000 B71905E.2RSD.T.P4S.UL 0,040
25 42 9 9 0,30 0,30 27,0 38,5 0,3 0,1 39 140 325 27,1 48,5 75,5 9,0 5,8 32 000 48 000 B71905C.T.P4S.UL 0,040
25 42 9 12 0,30 0,30 27,0 38,5 0,3 0,1 41 188 429 54,4 98,0 137,8 8,5 5,5 30 000 45 000 B71905E.T.P4S.UL 0,040
25 42 9 9 0,30 0,30 27,0 38,5 0,3 0,1 13 63 148 19,2 37,3 55,0 9,0 4,0 43 000 63 000 HCB71905C.T.P4S.UL 0,035
25 42 9 12 0,30 0,30 27,0 38,5 0,3 0,1 30 85 215 55,6 81,0 115,8 8,5 3,8 36 000 53 000 HCB71905E.T.P4S.UL 0,035
25 42 9 9 0,30 0,30 27,0 38,5 0,3 0,1 13 63 148 19,2 37,3 55,0 14,4 4,0 53 000 80 000 XCB71905C.T.P4S.UL 0,035
25 42 9 12 0,30 0,30 27,0 38,5 0,3 0,1 30 85 215 55,6 81,0 115,8 13,7 3,8 48 000 70 000 XCB71905E.T.P4S.UL 0,035
25 47 12 11 0,60 0,30 30,0 42,0 0,6 0,3 74 255 534 29,8 51,9 75,5 12,5 7,7 30 000 B7005C.2RSD.T.P4S.UL 0,084
25 47 12 14 0,60 0,30 30,0 42,0 0,6 0,3 100 382 830 67,7 112,0 153,5 11,9 7,4 28 000 B7005E.2RSD.T.P4S.UL 0,084
25 47 12 11 0,60 0,30 30,0 42,0 0,6 0,3 1,5 2,2 1,4 6,6 74 255 534 29,8 51,9 75,5 12,5 7,7 30 000 45 000 B7005C.T.P4S.UL 0,084
25 47 12 14 0,60 0,30 30,0 42,0 0,6 0,3 1,5 2,2 1,4 6,6 100 382 830 67,7 112,0 153,5 11,9 7,4 28 000 43 000 B7005E.T.P4S.UL 0,084
25 47 12 11 0,60 0,30 30,0 42,0 0,6 0,3 1,5 2,2 1,4 6,6 33 131 280 24,5 42,5 60,5 12,5 5,4 38 000 56 000 HCB7005C.T.P4S.UL 0,073
25 47 12 14 0,60 0,30 30,0 42,0 0,6 0,3 1,5 2,2 1,4 6,6 39 190 430 55,0 96,5 132,0 11,9 5,1 34 000 50 000 HCB7005E.T.P4S.UL 0,073
25 47 12 11 0,60 0,30 30,0 42,0 0,6 0,3 1,5 2,2 1,4 6,6 33 131 280 24,5 42,5 60,5 20,1 5,4 50 000 75 000 XCB7005C.T.P4S.UL 0,073
25 47 12 14 0,60 0,30 30,0 42,0 0,6 0,3 1,5 2,2 1,4 6,6 39 190 430 55,0 96,5 132,0 19,1 5,1 43 000 63 000 XCB7005E.T.P4S.UL 0,073
25 52 15 13 1,00 0,60 31,5 45,5 1,0 0,6 80 270 560 30,1 53,6 79,2 14,3 9,9 28 000 B7205C.2RSD.T.P4S.UL 0,133
25 52 15 17 1,00 0,60 31,5 45,5 1,0 0,6 113 420 900 68,9 144,0 158,0 13,6 9,5 26 000 B7205E.2RSD.T.P4S.UL 0,133
25 52 15 13 1,00 0,60 31,5 45,5 1,0 0,6 80 270 560 30,1 53,6 79,2 14,3 9,9 28 000 43 000 B7205C.T.P4S.UL 0,133
25 52 15 17 1,00 0,60 31,5 45,5 1,0 0,6 113 420 900 68,9 144,0 158,0 13,6 9,5 26 000 40 000 B7205E.T.P4S.UL 0,133
25 52 15 13 1,00 0,60 31,5 45,5 1,0 0,6 46 171 366 27,4 47,7 69,1 14,3 6,9 36 000 53 000 HCB7205C.T.P4S.UL 0,122
25 52 15 17 1,00 0,60 31,5 45,5 1,0 0,6 58 250 562 61,5 105,0 145,0 13,6 6,6 32 000 48 000 HCB7205E.T.P4S.UL 0,122
25 62 17 14 1,10 1,10 32,0 55,0 1,1 1,1 120 240 470 45,0 60,0 85,0 26,3 15,2 30 000 47 500 A7305C.T.P4S.UL 0,222
25 62 17 19 1,10 1,10 32,0 55,0 1,1 1,1 200 400 800 100,0 130,0 180,0 25,5 14,8 26 500 43 000 A7305E.T.P4S.UL 0,222
SLF-High-precision bearings | Page 38
B
D
d
a
rs
rs
r1s
rs
α
Contact angleα = 15°/25°
B...C/EHCB...C/EXCB...C/E
SANA
NBSB
DLR-design
B
D
d
a
r1s
rs
r1s
rs
α
B...C/E.2RSD
B
D
d
a
rs
r1s
rs
rs
α
Contact angleα = 15°/25°
A...C/E installation dimension
ra
raDada
rb
raDada
installation dimension
Contact angleα = 15°/25°
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) DLR-dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin r1s min dah12 DaH12 ramax rb max NB NA SB SA L M S L M S dyn C stat Co grease oil bearing kg
30 30 47 9 10 0,30 0,30 32,0 43,5 0,3 0,1 40 160 346 30,0 54,5 82,0 8,1 5,8 28 000 B71906C.2RSD.T.P4S.UL 0,046
30 47 9 14 0,30 0,30 32,0 43,5 0,3 0,1 42 195 446 58,7 105,8 149,0 7,6 5,4 26 000 B71906E.2RSD.T.P4S.UL 0,046
30 47 9 10 0,30 0,30 32,0 43,5 0,3 0,1 40 160 346 30,0 54,5 82,0 8,1 5,8 28 000 43 000 B71906C.T.P4S.UL 0,046
30 47 9 14 0,30 0,30 32,0 43,5 0,3 0,1 42 195 446 58,7 105,8 149,0 7,6 5,4 26 000 40 000 B71906E.T.P4S.UL 0,046
30 47 9 10 0,30 0,30 32,0 43,5 0,3 0,1 15 65 152 21,2 40,1 59,4 8,1 4,1 36 000 53 000 HCB71906C.T.P4S.UL 0,041
30 47 9 14 0,30 0,30 32,0 43,5 0,3 0,1 30 85 224 60,0 87,8 126,0 7,6 3,8 32 000 48 000 HCB71906E.T.P4S.UL 0,041
30 47 9 10 0,30 0,30 32,0 43,5 0,3 0,1 15 65 152 21,2 40,1 59,4 12,9 4,1 48 000 70 000 XCB71906C.T.P4S.UL 0,041
30 47 9 14 0,30 0,30 32,0 43,5 0,3 0,1 30 85 224 60,0 87,8 126,0 12,2 3,8 40 000 60 000 XCB71906E.T.P4S.UL 0,041
30 55 13 14 1,00 0,60 36,0 49,0 1,0 0,3 74 258 546 32,6 57,8 85,0 14,1 10,7 26 000 B7006C.2RSD.T.P4S.UL 0,117
30 55 13 16 1,00 0,60 36,0 49,0 1,0 0,3 102 397 860 74,0 124,0 171,0 13,4 9,9 24 000 B7006E.2RSD.T.P4S.UL 0,117
30 55 13 14 1,00 0,60 36,0 49,0 1,0 0,3 1,5 2,8 1,4 7,2 74 258 546 32,6 57,8 85,0 14,1 10,7 26 000 40 000 B7006C.T.P4S.UL 0,117
30 55 13 16 1,00 0,60 36,0 49,0 1,0 0,3 1,5 2,8 1,4 7,2 102 397 860 74,0 124,0 171,0 13,4 9,9 24 000 38 000 B7006E.T.P4S.UL 0,117
30 55 13 14 1,00 0,60 36,0 49,0 1,0 0,3 1,5 2,8 1,4 7,2 34 138 298 27,1 47,8 68,6 14,1 7,5 32 000 48 000 HCB7006C.T.P4S.UL 0,106
30 55 13 16 1,00 0,60 36,0 49,0 1,0 0,3 1,5 2,8 1,4 7,2 38 194 445 59,0 106,0 146,5 13,4 6,9 28 000 43 000 HCB7006E.T.P4S.UL 0,106
30 55 13 14 1,00 0,60 36,0 49,0 1,0 0,3 1,5 2,8 1,4 7,2 34 138 298 27,1 47,8 68,6 22,6 7,5 43 000 60 000 XCB7006C.T.P4S.UL 0,106
30 55 13 16 1,00 0,60 36,0 49,0 1,0 0,3 1,5 2,8 1,4 7,2 38 194 445 59,0 106,0 146,5 21,4 6,9 36 000 53 000 XCB7006E.T.P4S.UL 0,106
30 62 16 14 1,00 0,60 37,5 54,5 1,0 0,6 121 410 857 42,0 75,4 112,0 20,8 14,8 24 000 B7206C.2RSD.T.P4S.UL 0,204
30 62 16 19 1,00 0,60 37,5 54,5 1,0 0,6 175 638 1360 95,0 157,1 218,0 19,8 14,1 22 000 B7206E.2RSD.T.P4S.UL 0,204
30 62 16 14 1,00 0,60 37,5 54,5 1,0 0,6 121 410 857 42,0 75,4 112,0 20,8 14,8 24 000 38 000 B7206C.T.P4S.UL 0,204
30 62 16 19 1,00 0,60 37,5 54,5 1,0 0,6 175 638 1360 95,0 157,1 218,0 19,8 14,1 22 000 36 000 B7206E.T.P4S.UL 0,204
30 62 16 14 1,00 0,60 37,5 54,5 1,0 0,6 74 270 568 38,5 67,5 98,5 20,8 10,4 30 000 45 000 HCB7206C.T.P4S.UL 0,183
30 62 16 19 1,00 0,60 37,5 54,5 1,0 0,6 99 406 894 87,5 148,0 203,5 19,8 9,9 26 000 40 000 HCB7206E.T.P4S.UL 0,183
30 72 19 16 1,10 1,10 37,0 65,0 1,1 1,1 160 320 640 50,0 70,0 100,0 32,1 20,0 25 500 40 500 A7306C.T.P4S.UL 0,329
30 72 19 21 1,10 1,10 37,0 65,0 1,1 1,1 270 550 1090 120,0 160,0 210,0 31,0 19,4 23 000 37 000 A7306E.T.P4S.UL 0,329
35 35 55 10 11 0,60 0,30 40,0 50,5 0,6 0,1 59 210 480 36,2 64,0 99,5 10,2 7,5 24 000 B71907C.2RSD.T.P4S.UL 0,076
35 55 10 16 0,60 0,30 40,0 50,5 0,6 0,1 61 275 620 73,5 129,5 180,5 9,6 7,0 22 000 B71907E.2RSD.T.P4S.UL 0,076
35 55 10 11 0,60 0,30 40,0 50,5 0,6 0,1 59 210 480 36,2 64,0 99,5 10,2 7,5 24 000 38 000 B71907C.T.P4S.UL 0,076
35 55 10 16 0,60 0,30 40,0 50,5 0,6 0,1 61 275 620 73,5 129,5 180,5 9,6 7,0 22 000 36 000 B71907E.T.P4S.UL 0,076
35 55 10 11 0,60 0,30 40,0 50,5 0,6 0,1 20 95 218 26,5 50,0 72,5 10,2 5,2 32 000 48 000 HCB71907C.T.P4S.UL 0,069
35 55 10 16 0,60 0,30 40,0 50,5 0,6 0,1 44 128 315 74,0 109,0 154,0 9,6 4,9 26 000 40 000 HCB71907E.T.P4S.UL 0,069
35 55 10 11 0,60 0,30 40,0 50,5 0,6 0,1 20 95 218 26,5 50,0 72,5 16,4 5,2 40 000 60 000 XCB71907C.T.P4S.UL 0,069
35 55 10 16 0,60 0,30 40,0 50,5 0,6 0,1 44 128 315 74,0 109,0 154,0 15,4 4,9 34 000 50 000 XCB71907E.T.P4S.UL 0,069
SLF-High-precision bearings | Page 39
B
D
d
a
rs
rs
r1s
rs
α
Contact angleα = 15°/25°
B...C/EHCB...C/EXCB...C/E
SANA
NBSB
DLR-design
B
D
d
a
r1s
rs
r1s
rs
α
B...C/E.2RSD
B
D
d
a
rs
r1s
rs
rs
α
Contact angleα = 15°/25°
A...C/E installation dimension
ra
raDada
rb
raDada
installation dimension
Contact angleα = 15°/25°
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) DLR-dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin r1s min dah12 DaH12 ramax rb max NB NA SB SA L M S L M S dyn C stat Co grease oil bearing kg
35 35 62 14 14 1,00 0,60 41,0 56,0 1,0 0,3 96 332 698 38,8 67,5 99,5 16,0 12,7 22 000 B7007C.2RSD.T.P4S.UL 0,157
35 62 14 18 1,00 0,60 41,0 56,0 1,0 0,3 135 520 1118 88,2 147,0 202,0 15,1 11,8 20 000 B7007E.2RSD.T.P4S.UL 0,157
35 62 14 14 1,00 0,60 41,0 56,0 1,0 0,3 1,5 2,8 1,4 8,0 96 332 698 38,8 67,5 99,5 16,0 12,7 22 000 36 000 B7007C.T.P4S.UL 0,157
35 62 14 18 1,00 0,60 41,0 56,0 1,0 0,3 1,5 2,8 1,4 8,0 135 520 1118 88,2 147,0 202,0 15,1 11,8 20 000 34 000 B7007E.T.P4S.UL 0,157
35 62 14 14 1,00 0,60 41,0 56,0 1,0 0,3 1,5 2,8 1,4 8,0 45 176 380 32,0 56,0 80,5 16,0 8,9 28 000 43 000 HCB7007C.T.P4S.UL 0,143
35 62 14 18 1,00 0,60 41,0 56,0 1,0 0,3 1,5 2,8 1,4 8,0 55 254 580 72,5 126,0 173,0 15,1 8,2 24 000 38 000 HCB7007E.T.P4S.UL 0,143
35 62 14 14 1,00 0,60 41,0 56,0 1,0 0,3 1,5 2,8 1,4 8,0 45 176 380 32,0 56,0 80,5 25,6 8,9 38 000 56 000 XCB7007C.T.P4S.UL 0,143
35 62 14 18 1,00 0,60 41,0 56,0 1,0 0,3 1,5 2,8 1,4 8,0 55 254 580 72,5 126,0 173,0 24,1 8,2 32 000 48 000 XCB7007E.T.P4S.UL 0,143
35 72 17 16 1,10 0,60 44,0 63,0 1,0 0,6 135 455 940 45,0 79,0 116,0 25,4 19,4 20 000 B7207C.2RSD.T.P4S.UL 0,296
35 72 17 21 1,10 0,60 44,0 63,0 1,0 0,6 196 715 1520 103,0 170,0 234,0 24,1 18,5 19 000 B7207E.2RSD.T.P4S.UL 0,296
35 72 17 16 1,10 0,60 44,0 63,0 1,0 0,6 135 455 940 45,0 79,0 116,0 25,4 19,4 20 000 34 000 B7207C.T.P4S.UL 0,296
35 72 17 21 1,10 0,60 44,0 63,0 1,0 0,6 196 715 1520 103,0 170,0 234,0 24,1 18,5 19 000 32 000 B7207E.T.P4S.UL 0,296
35 72 17 16 1,10 0,60 44,0 63,0 1,0 0,6 65 240 512 38,0 65,0 93,5 25,4 13,6 26 000 40 000 HCB7207C.T.P4S.UL 0,267
35 72 17 21 1,10 0,60 44,0 63,0 1,0 0,6 85 360 805 87,0 148,0 202,0 24,1 13,0 22 000 36 000 HCB7207E.T.P4S.UL 0,267
35 80 21 18 1,50 1,10 43,0 72,0 1,5 1,1 200 400 810 60,0 85,0 120,0 40,3 26,6 22 000 36 000 A7307C.T.P4S.UL 0,428
35 80 21 24 1,50 1,10 43,0 72,0 1,5 1,1 340 680 1370 140,0 180,0 250,0 38,8 25,0 21 000 32 500 A7307E.T.P4S.UL 0,428
40 40 62 12 13 0,60 0,30 45,0 57,5 0,6 0,1 84 300 632 41,0 73,0 107,5 16,0 13,0 22 000 B71908C.2RSD.T.P4S.UL 0,105
40 62 12 18 0,60 0,30 45,0 57,5 0,6 0,1 112 450 985 92,0 155,0 215,0 15,1 12,3 20 000 B71908E.2RSD.T.P4S.UL 0,105
40 62 12 13 0,60 0,30 45,0 57,5 0,6 0,1 1,5 2,2 1,6 6,6 84 300 632 41,0 73,0 107,5 16,0 13,0 22 000 36 000 B71908C.T.P4S.UL 0,105
40 62 12 18 0,60 0,30 45,0 57,5 0,6 0,1 1,5 2,2 1,6 6,6 112 450 985 92,0 155,0 215,0 15,1 12,3 20 000 34 000 B71908E.T.P4S.UL 0,105
40 62 12 13 0,60 0,30 45,0 57,5 0,6 0,1 1,5 2,2 1,6 6,6 39 155 340 34,0 60,0 86,1 16,0 9,1 28 000 43 000 HCB71908C.T.P4S.UL 0,089
40 62 12 18 0,60 0,30 45,0 57,5 0,6 0,1 1,5 2,2 1,6 6,6 75 222 520 90,8 134,0 185,0 15,1 8,6 24 000 38 000 HCB71908E.T.P4S.UL 0,089
40 62 12 13 0,60 0,30 45,0 57,5 0,6 0,1 1,5 2,2 1,6 6,6 39 155 340 34,0 60,0 86,1 25,6 9,1 36 000 53 000 XCB71908C.T.P4S.UL 0,089
40 62 12 18 0,60 0,30 45,0 57,5 0,6 0,1 1,5 2,2 1,6 6,6 75 222 520 90,8 134,0 185,0 24,2 8,6 30 000 45 000 XCB71908E.T.P4S.UL 0,089
40 68 15 15 1,00 0,60 46,0 62,0 1,0 0,3 101 354 744 44,0 77,0 113,2 16,9 14,0 20 000 B7008C.2RSD.T.P4S.UL 0,196
40 68 15 20 1,00 0,60 46,0 62,0 1,0 0,3 142 546 1180 99,0 166,0 228,5 15,9 13,0 19 000 B7008E.2RSD.T.P4S.UL 0,196
40 68 15 15 1,00 0,60 46,0 62,0 1,0 0,3 1,5 2,8 1,4 8,5 101 354 744 44,0 77,0 113,2 16,9 14,0 20 000 34 000 B7008C.T.P4S.UL 0,196
40 68 15 20 1,00 0,60 46,0 62,0 1,0 0,3 1,5 2,8 1,4 8,5 142 546 1180 99,0 166,0 228,5 15,9 13,0 19 000 32 000 B7008E.T.P4S.UL 0,196
40 68 15 15 1,00 0,60 46,0 62,0 1,0 0,3 1,5 2,8 1,4 8,5 48 188 405 36,0 63,5 91,0 16,9 9,8 26 000 40 000 HCB7008C.T.P4S.UL 0,180
40 68 15 20 1,00 0,60 46,0 62,0 1,0 0,3 1,5 2,8 1,4 8,5 55 270 618 80,0 142,5 196,0 15,9 9,1 22 000 36 000 HCB7008E.T.P4S.UL 0,180
40 68 15 15 1,00 0,60 46,0 62,0 1,0 0,3 1,5 2,8 1,4 8,5 48 188 405 36,0 63,5 91,0 27,0 9,8 34 000 50 000 XCB7008C.T.P4S.UL 0,180
40 68 15 20 1,00 0,60 46,0 62,0 1,0 0,3 1,5 2,8 1,4 8,5 55 270 618 80,0 142,5 196,0 25,5 9,1 28 000 43 000 XCB7008E.T.P4S.UL 0,180
SLF-High-precision bearings | Page 40
B
D
d
a
rs
rs
r1s
rs
α
Contact angleα = 15°/25°
B...C/EHCB...C/EXCB...C/E
SANA
NBSB
DLR-design
B
D
d
a
r1s
rs
r1s
rs
α
B...C/E.2RSD
B
D
d
a
rs
r1s
rs
rs
α
Contact angleα = 15°/25°
A...C/E installation dimension
ra
raDada
rb
raDada
installation dimension
Contact angleα = 15°/25°
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) DLR-dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin r1s min dah12 DaH12 ramax rb max NB NA SB SA L M S L M S dyn C stat Co grease oil bearing kg
40 40 80 18 17 1,10 1,10 48,0 72,0 1,0 1,0 175 585 1205 47,0 86,5 126,5 35,0 25,3 18 000 B7208C.2RSD.T.P4S.UL 0,364
40 80 18 23 1,10 1,10 48,0 72,0 1,0 1,0 259 910 1925 114,0 186,0 254,0 33,3 24,2 17 000 B7208E.2RSD.T.P4S.UL 0,364
40 80 18 17 1,10 1,10 48,0 72,0 1,0 1,0 175 585 1205 47,0 86,5 126,5 35,0 25,3 18 000 30 000 B7208C.T.P4S.UL 0,364
40 80 18 23 1,10 1,10 48,0 72,0 1,0 1,0 259 910 1925 114,0 186,0 254,0 33,3 24,2 17 000 28 000 B7208E.T.P4S.UL 0,364
40 80 18 17 1,10 1,10 48,0 72,0 1,0 1,0 89 315 660 42,0 71,5 102,0 35,0 17,7 24 000 38 000 HCB7208C.T.P4S.UL 0,315
40 80 18 23 1,10 1,10 48,0 72,0 1,0 1,0 117 478 1045 97,5 162,5 220,0 33,3 17,0 20 000 34 000 HCB7208E.T.P4S.UL 0,315
40 90 23 20 1,50 1,50 48,0 82,0 1,5 1,5 240 470 950 65,0 90,0 130,0 47,7 32,5 21 000 32 500 A7308C.T.P4S.UL 0,622
40 90 23 27 1,50 1,50 48,0 82,0 1,5 1,5 400 810 1610 150,0 200,0 260,0 45,7 31,1 18 500 29 000 A7308E.T.P4S.UL 0,622
45 45 68 12 14 0,60 0,30 50,0 63,5 0,6 0,1 89 316 666 44,2 79,0 116,0 16,8 14,7 19 000 B71909C.2RSD.T.P4S.UL 0,126
45 68 12 19 0,60 0,30 50,0 63,5 0,6 0,1 115 472 1040 99,0 169,0 233,5 15,9 13,7 18 000 B71909E.2RSD.T.P4S.UL 0,126
45 68 12 14 0,60 0,30 50,0 63,5 0,6 0,1 1,5 2,8 1,6 6,6 89 316 666 44,2 79,0 116,0 16,8 14,7 19 000 32 000 B71909C.T.P4S.UL 0,126
45 68 12 19 0,60 0,30 50,0 63,5 0,6 0,1 1,5 2,8 1,6 6,6 115 472 1040 99,0 169,0 233,5 15,9 13,7 18 000 30 000 B71909E.T.P4S.UL 0,126
45 68 12 14 0,60 0,30 50,0 63,5 0,6 0,1 1,5 2,8 1,6 6,6 41 164 360 36,5 65,0 93,5 16,8 10,3 24 000 38 000 HCB71909C.T.P4S.UL 0,108
45 68 12 19 0,60 0,30 50,0 63,5 0,6 0,1 1,5 2,8 1,6 6,6 79 230 540 98,0 145,0 201,0 15,9 9,6 22 000 36 000 HCB71909E.T.P4S.UL 0,108
45 68 12 14 0,60 0,30 50,0 63,5 0,6 0,1 1,5 2,8 1,6 6,6 41 164 360 36,5 65,0 93,5 26,9 10,3 32 000 48 000 XCB71909C.T.P4S.UL 0,108
45 68 12 19 0,60 0,30 50,0 63,5 0,6 0,1 1,5 2,8 1,6 6,6 79 230 540 98,0 145,0 201,0 25,4 9,6 28 000 43 000 XCB71909E.T.P4S.UL 0,108
45 75 16 16 1,00 0,60 51,0 69,0 1,0 0,3 144 490 1020 50,0 88,0 128,5 22,8 19,6 18 000 B7009C.2RSD.T.P4S.UL 0,236
45 75 16 22 1,00 0,60 51,0 69,0 1,0 0,3 210 768 1640 115,0 190,0 260,0 21,5 18,2 17 000 B7009E.2RSD.T.P4S.UL 0,236
45 75 16 16 1,00 0,60 51,0 69,0 1,0 0,3 1,5 3,4 1,4 9,3 144 490 1020 50,0 88,0 128,5 22,8 19,6 18 000 30 000 B7009C.T.P4S.UL 0,236
45 75 16 22 1,00 0,60 51,0 69,0 1,0 0,3 1,5 3,4 1,4 9,3 210 768 1640 115,0 190,0 260,0 21,5 18,2 17 000 28 000 B7009E.T.P4S.UL 0,236
45 75 16 16 1,00 0,60 51,0 69,0 1,0 0,3 1,5 3,4 1,4 9,3 72 265 560 42,0 73,0 104,0 22,8 13,7 24 000 38 000 HCB7009C.T.P4S.UL 0,211
45 75 16 22 1,00 0,60 51,0 69,0 1,0 0,3 1,5 3,4 1,4 9,3 90 394 876 97,0 165,0 226,0 21,5 12,7 20 000 34 000 HCB7009E.T.P4S.UL 0,211
45 75 16 16 1,00 0,60 51,0 69,0 1,0 0,3 1,5 3,4 1,4 9,3 72 265 560 42,0 73,0 104,0 36,5 13,7 30 000 45 000 XCB7009C.T.P4S.UL 0,211
45 75 16 22 1,00 0,60 51,0 69,0 1,0 0,3 1,5 3,4 1,4 9,3 90 394 876 97,0 165,0 226,0 34,5 12,7 26 000 40 000 XCB7009E.T.P4S.UL 0,211
45 85 19 18 1,10 1,10 52,5 78,0 1,0 1,0 185 605 1250 53,0 91,0 134,0 41,0 30,6 17 000 B7209C.2RSD.T.P4S.UL 0,408
45 85 19 25 1,10 1,10 52,5 78,0 1,0 1,0 270 955 2016 121,6 197,3 270,0 39,0 29,3 15 000 B7209E.2RSD.T.P4S.UL 0,408
45 85 19 18 1,10 1,10 52,5 78,0 1,0 1,0 185 605 1250 53,0 91,0 134,0 41,0 30,6 17 000 28 000 B7209C.T.P4S.UL 0,408
45 85 19 25 1,10 1,10 52,5 78,0 1,0 1,0 270 955 2016 121,6 197,3 270,0 39,0 29,3 15 000 24 000 B7209E.T.P4S.UL 0,408
45 85 19 18 1,10 1,10 52,5 78,0 1,0 1,0 92 330 695 45,0 76,0 108,0 41,0 21,4 22 000 36 000 HCB7209C.T.P4S.UL 0,344
45 85 19 25 1,10 1,10 52,5 78,0 1,0 1,0 120 494 1080 103,0 172,0 234,0 39,0 20,5 18 000 30 000 HCB7209E.T.P4S.UL 0,344
45 100 25 22 1,50 1,50 54,0 91,0 1,5 1,5 290 580 1150 75,0 100,0 140,0 57,6 40,2 18 500 29 000 A7309C.T.P4S.UL 0,829
45 100 25 29 1,50 1,50 54,0 91,0 1,5 1,5 490 980 1950 170,0 220,0 300,0 55,2 38,4 16 000 23 000 A7309E.T.P4S.UL 0,829
SLF-High-precision bearings | Page 41
B
D
d
a
rs
rs
r1s
rs
α
Contact angleα = 15°/25°
B...C/EHCB...C/EXCB...C/E
SANA
NBSB
DLR-design
B
D
d
a
r1s
rs
r1s
rs
α
B...C/E.2RSD
B
D
d
a
rs
r1s
rs
rs
α
Contact angleα = 15°/25°
A...C/E installation dimension
ra
raDada
rb
raDada
installation dimension
Contact angleα = 15°/25°
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) DLR-dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin r1s min dah12 DaH12 ramax rb max NB NA SB SA L M S L M S dyn C stat Co grease oil bearing kg
50 50 72 12 14 0,60 0,30 55,0 67,5 0,6 0,1 90 320 680 46,0 81,5 120,0 17,1 15,3 18 000 B71910C.2RSD.T.P4S.UL 0,129
50 72 12 20 0,60 0,30 55,0 67,5 0,6 0,1 117 480 1060 103,0 175,0 242,0 16,1 14,2 16 000 B71910E.2RSD.T.P4S.UL 0,129
50 72 12 14 0,60 0,30 55,0 67,5 0,6 0,1 1,5 2,8 1,6 6,6 90 320 680 46,0 81,5 120,0 17,1 15,3 18 000 30 000 B71910C.T.P4S.UL 0,129
50 72 12 20 0,60 0,30 55,0 67,5 0,6 0,1 1,5 2,8 1,6 6,6 117 480 1060 103,0 175,0 242,0 16,1 14,2 16 000 26 000 B71910E.T.P4S.UL 0,129
50 72 12 14 0,60 0,30 55,0 67,5 0,6 0,1 1,5 2,8 1,6 6,6 40 164 364 38,0 67,0 96,5 17,1 10,7 22 000 36 000 HCB71910C.T.P4S.UL 0,110
50 72 12 20 0,60 0,30 55,0 67,5 0,6 0,1 1,5 2,8 1,6 6,6 79 233 550 101,0 150,0 208,0 16,1 10,0 20 000 34 000 HCB71910E.T.P4S.UL 0,110
50 72 12 14 0,60 0,30 55,0 67,5 0,6 0,1 1,5 2,8 1,6 6,6 40 164 364 38,0 67,0 96,5 27,3 10,7 30 000 43 000 XCB71910C.T.P4S.UL 0,110
50 72 12 20 0,60 0,30 55,0 67,5 0,6 0,1 1,5 2,8 1,6 6,6 79 233 550 101,0 150,0 208,0 25,7 10,0 26 000 40 000 XCB71910E.T.P4S.UL 0,110
50 80 16 17 1,00 0,60 56,0 74,0 1,0 0,3 150 505 1050 52,0 92,0 135,0 28,2 25,5 17 000 B7010C.2RSD.T.P4S.UL 0,262
50 80 16 23 1,00 0,60 56,0 74,0 1,0 0,3 210 780 1665 120,0 199,0 272,0 26,6 22,8 15 000 B7010E.2RSD.T.P4S.UL 0,262
50 80 16 17 1,00 0,60 56,0 74,0 1,0 0,3 1,5 3,4 1,4 9,3 150 505 1050 52,0 92,0 135,0 28,2 25,5 17 000 28 000 B7010C.T.P4S.UL 0,262
50 80 16 23 1,00 0,60 56,0 74,0 1,0 0,3 1,5 3,4 1,4 9,3 210 780 1665 120,0 199,0 272,0 26,6 22,8 15 000 24 000 B7010E.T.P4S.UL 0,262
50 80 16 17 1,00 0,60 56,0 74,0 1,0 0,3 1,5 3,4 1,4 9,3 75 275 588 45,0 77,0 110,0 28,2 17,2 22 000 36 000 HCB7010C.T.P4S.UL 0,226
50 80 16 23 1,00 0,60 56,0 74,0 1,0 0,3 1,5 3,4 1,4 9,3 88 396 890 100,0 172,0 236,0 26,6 15,9 18 000 30 000 HCB7010E.T.P4S.UL 0,226
50 80 16 17 1,00 0,60 56,0 74,0 1,0 0,3 1,5 3,4 1,4 9,3 75 275 588 45,0 77,0 110,0 45,1 17,2 28 000 43 000 XCB7010C.T.P4S.UL 0,226
50 80 16 23 1,00 0,60 56,0 74,0 1,0 0,3 1,5 3,4 1,4 9,3 88 396 890 100,0 172,0 236,0 42,6 15,9 24 000 38 000 XCB7010E.T.P4S.UL 0,226
50 90 20 19 1,10 1,10 57,0 83,0 1,0 1,0 242 790 1630 60,0 105,0 153,0 44,6 36,1 16 000 B7210C.2RSD.T.P4S.UL 0,459
50 90 20 26 1,10 1,10 57,0 83,0 1,0 1,0 350 1220 2580 138,0 222,0 305,0 42,3 34,5 14 000 B7210E.2RSD.T.P4S.UL 0,459
50 90 20 19 1,10 1,10 57,0 83,0 1,0 1,0 1,5 4,0 1,6 11,2 242 790 1630 60,0 105,0 153,0 44,6 36,1 16 000 26 000 B7210C.T.P4S.UL 0,459
50 90 20 26 1,10 1,10 57,0 83,0 1,0 1,0 1,5 4,0 1,6 11,2 350 1220 2580 138,0 222,0 305,0 42,3 34,5 14 000 22 000 B7210E.T.P4S.UL 0,459
50 90 20 19 1,10 1,10 57,0 83,0 1,0 1,0 1,5 4,0 1,6 11,2 122 423 895 51,0 85,0 123,0 44,6 25,3 20 000 34 000 HCB7210C.T.P4S.UL 0,385
50 90 20 26 1,10 1,10 57,0 83,0 1,0 1,0 1,5 4,0 1,6 11,2 168 655 1420 120,0 199,0 267,0 42,3 24,1 17 000 28 000 HCB7210E.T.P4S.UL 0,385
50 110 27 24 2,00 2,00 60,0 100,0 2,0 2,0 350 700 1400 75,0 110,0 150,0 69,7 47,8 16 000 26 500 A7310C.T.P4S.UL 1,07
50 110 27 32 2,00 2,00 60,0 100,0 2,0 2,0 590 1190 2380 180,0 240,0 320,0 66,9 45,7 15 000 23 000 A7310E.T.P4S.UL 1,07
55 55 80 13 16 1,00 0,60 60,0 75,5 0,6 0,3 110 390 820 51,0 90,0 132,0 20,9 18,8 16 000 B71911C.2RSD.T.P4S.UL 0,176
55 80 13 22 1,00 0,60 60,0 75,5 0,6 0,3 150 595 1290 114,0 195,0 265,0 19,7 17,5 15 000 B71911E.2RSD.T.P4S.UL 0,176
55 80 13 16 1,00 0,60 60,0 75,5 0,6 0,3 1,5 2,8 1,6 7,2 110 390 820 51,0 90,0 132,0 20,9 18,8 16 000 26 000 B71911C.T.P4S.UL 0,176
55 80 13 22 1,00 0,60 60,0 75,5 0,6 0,3 1,5 2,8 1,6 7,2 150 595 1290 114,0 195,0 265,0 19,7 17,5 15 000 24 000 B71911E.T.P4S.UL 0,176
55 80 13 16 1,00 0,60 60,0 75,5 0,6 0,3 1,5 2,8 1,6 7,2 50 202 442 42,0 74,2 106,0 20,9 13,1 20 000 34 000 HCB71911C.T.P4S.UL 0,151
55 80 13 22 1,00 0,60 60,0 75,5 0,6 0,3 1,5 2,8 1,6 7,2 58 296 692 94,0 169,0 233,0 19,7 12,2 18 000 30 000 HCB71911E.T.P4S.UL 0,151
55 80 13 16 1,00 0,60 60,0 75,5 0,6 0,3 1,5 2,8 1,6 7,2 50 202 442 42,0 74,2 106,0 33,5 13,1 26 000 40 000 XCB71911C.T.P4S.UL 0,151
55 80 13 22 1,00 0,60 60,0 75,5 0,6 0,3 1,5 2,8 1,6 7,2 58 296 692 94,0 169,0 233,0 31,5 12,2 24 000 38 000 XCB71911E.T.P4S.UL 0,151
SLF-High-precision bearings | Page 42
B
D
d
a
rs
rs
r1s
rs
α
Contact angleα = 15°/25°
B...C/EHCB...C/EXCB...C/E
SANA
NBSB
DLR-design
B
D
d
a
r1s
rs
r1s
rs
α
B...C/E.2RSD
B
D
d
a
rs
r1s
rs
rs
α
Contact angleα = 15°/25°
A...C/E installation dimension
ra
raDada
rb
raDada
installation dimension
Contact angleα = 15°/25°
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) DLR-dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin r1s min dah12 DaH12 ramax rb max NB NA SB SA L M S L M S dyn C stat Co grease oil bearing kg
55 55 90 18 19 1,10 1,00 62,0 83,0 1,0 0,6 205 680 1425 62,0 107,0 155,0 36,8 33,4 15 000 B7011C.2RSD.T.P4S.UL 0,383
55 90 18 26 1,10 1,00 62,0 83,0 1,0 0,6 298 1065 2260 141,0 230,0 318,0 34,7 31,0 14 000 B7011E.2RSD.T.P4S.UL 0,383
55 90 18 19 1,10 1,00 62,0 83,0 1,0 0,6 1,5 4,3 1,4 9,7 205 680 1425 62,0 107,0 155,0 36,8 33,4 15 000 24 000 B7011C.T.P4S.UL 0,383
55 90 18 26 1,10 1,00 62,0 83,0 1,0 0,6 1,5 4,3 1,4 9,7 298 1065 2260 141,0 230,0 318,0 34,7 31,0 14 000 22 000 B7011E.T.P4S.UL 0,383
55 90 18 19 1,10 1,00 62,0 83,0 1,0 0,6 1,5 4,3 1,4 9,7 102 370 785 52,0 90,0 128,0 36,8 23,4 19 000 32 000 HCB7011C.T.P4S.UL 0,335
55 90 18 26 1,10 1,00 62,0 83,0 1,0 0,6 1,5 4,3 1,4 9,7 135 550 1220 120,0 203,0 277,0 34,7 21,7 17 000 28 000 HCB7011E.T.P4S.UL 0,335
55 90 18 19 1,10 1,00 62,0 83,0 1,0 0,6 1,5 4,3 1,4 9,7 102 370 785 52,0 90,0 128,0 58,9 23,4 26 000 40 000 XCB7011C.T.P4S.UL 0,335
55 90 18 26 1,10 1,00 62,0 83,0 1,0 0,6 1,5 4,3 1,4 9,7 135 550 1220 120,0 203,0 277,0 55,6 21,7 22 000 36 000 XCB7011E.T.P4S.UL 0,335
55 100 21 21 1,50 1,10 63,0 92,0 1,5 1,1 260 850 1750 66,0 114,0 166,0 53,0 42,7 14 000 B7211C.2RSD.T.P4S.UL 0,608
55 100 21 29 1,50 1,10 63,0 92,0 1,5 1,1 380 1330 2795 155,0 252,0 342,0 50,3 40,8 13 000 B7211E.2RSD.T.P4S.UL 0,608
55 100 21 21 1,50 1,10 63,0 92,0 1,5 1,1 1,8 3,8 1,6 12,0 260 850 1750 66,0 114,0 166,0 53,0 42,7 14 000 22 000 B7211C.T.P4S.UL 0,608
55 100 21 29 1,50 1,10 63,0 92,0 1,5 1,1 1,8 3,8 1,6 12,0 380 1330 2795 155,0 252,0 342,0 50,3 40,8 13 000 20 000 B7211E.T.P4S.UL 0,608
55 100 21 21 1,50 1,10 63,0 92,0 1,5 1,1 1,8 3,8 1,6 12,0 135 462 980 58,0 97,0 138,0 53,0 29,9 18 000 30 000 HCB7211C.T.P4S.UL 0,509
55 100 21 29 1,50 1,10 63,0 92,0 1,5 1,1 1,8 3,8 1,6 12,0 178 700 1530 135,0 220,0 296,0 50,3 28,6 15 000 24 000 HCB7211E.T.P4S.UL 0,509
55 120 29 26 2,00 2,00 65,0 110,0 2,0 2,0 370 740 1490 85,0 120,0 170,0 74,3 54,1 15 000 24 500 A7311C.T.P4S.UL 1,36
55 120 29 35 2,00 2,00 65,0 110,0 2,0 2,0 630 1260 2520 200,0 260,0 340,0 71,0 51,5 14 000 22 000 A7311E.T.P4S.UL 1,36
60 60 85 13 16 1,00 0,60 65,0 80,5 0,6 0,3 116 410 868 55,0 95,0 140,1 22,6 20,4 15 000 B71912C.2RSD.T.P4S.UL 0,190
60 85 13 23 1,00 0,60 65,0 80,5 0,6 0,3 156 622 1353 124,4 209,2 387,9 21,3 19,0 14 000 B71912E.2RSD.T.P4S.UL 0,190
60 85 13 16 1,00 0,60 65,0 80,5 0,6 0,3 1,5 2,8 1,6 7,2 116 410 868 55,0 95,0 140,1 22,6 20,4 15 000 24 000 B71912C.T.P4S.UL 0,190
60 85 13 23 1,00 0,60 65,0 80,5 0,6 0,3 1,5 2,8 1,6 7,2 156 622 1353 124,4 209,2 387,9 21,3 19,0 14 000 22 000 B71912E.T.P4S.UL 0,190
60 85 13 16 1,00 0,60 65,0 80,5 0,6 0,3 1,5 2,8 1,6 7,2 54 214 470 44,8 80,1 114,0 22,6 14,3 19 000 32 000 HCB71912C.T.P4S.UL 0,162
60 85 13 23 1,00 0,60 65,0 80,5 0,6 0,3 1,5 2,8 1,6 7,2 56 300 705 98,0 180,0 247,9 21,3 13,3 17 000 28 000 HCB71912E.T.P4S.UL 0,162
60 85 13 16 1,00 0,60 65,0 80,5 0,6 0,3 1,5 2,8 1,6 7,2 54 214 470 44,8 80,1 114,0 36,2 14,3 26 000 40 000 XCB71912C.T.P4S.UL 0,162
60 85 13 23 1,00 0,60 65,0 80,5 0,6 0,3 1,5 2,8 1,6 7,2 56 300 705 98,0 180,0 247,9 34,0 13,3 22 000 36 000 XCB71912E.T.P4S.UL 0,162
60 95 18 19 1,10 1,00 67,0 88,0 1,0 0,6 209 705 1460 64,7 112,0 162,5 37,6 34,9 14 000 B7012C.2RSD.T.P4S.UL 0,410
60 95 18 27 1,10 1,00 67,0 88,0 1,0 0,6 300 1077 2280 148,0 240,0 330,0 35,4 32,4 13 000 B7012E.2RSD.T.P4S.UL 0,410
60 95 18 19 1,10 1,00 67,0 88,0 1,0 0,6 1,5 3,8 1,6 10,4 209 705 1460 64,7 112,0 162,5 37,6 34,9 14 000 22 000 B7012C.T.P4S.UL 0,410
60 95 18 27 1,10 1,00 67,0 88,0 1,0 0,6 1,5 3,8 1,6 10,4 300 1077 2280 148,0 240,0 330,0 35,4 32,4 13 000 20 000 B7012E.T.P4S.UL 0,410
60 95 18 19 1,10 1,00 67,0 88,0 1,0 0,6 1,5 3,8 1,6 10,4 105 380 800 55,1 93,0 132,0 37,6 24,4 18 000 30 000 HCB7012C.T.P4S.UL 0,359
60 95 18 27 1,10 1,00 67,0 88,0 1,0 0,6 1,5 3,8 1,6 10,4 136 570 1265 127,0 213,4 287,0 35,4 22,7 15 000 24 000 HCB7012E.T.P4S.UL 0,359
60 95 18 19 1,10 1,00 67,0 88,0 1,0 0,6 1,5 3,8 1,6 10,4 105 380 800 55,1 93,0 132,0 60,2 24,4 24 000 38 000 XCB7012C.T.P4S.UL 0,359
60 95 18 27 1,10 1,00 67,0 88,0 1,0 0,6 1,5 3,8 1,6 10,4 136 570 1265 127,0 213,4 287,0 56,7 22,7 20 000 34 000 XCB7012E.T.P4S.UL 0,359
SLF-High-precision bearings | Page 43
B
D
d
a
rs
rs
r1s
rs
α
Contact angleα = 15°/25°
B...C/EHCB...C/EXCB...C/E
SANA
NBSB
DLR-design
B
D
d
a
r1s
rs
r1s
rs
α
B...C/E.2RSD
B
D
d
a
rs
r1s
rs
rs
α
Contact angleα = 15°/25°
A...C/E installation dimension
ra
raDada
rb
raDada
installation dimension
Contact angleα = 15°/25°
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) DLR-dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin r1s min dah12 DaH12 ramax rb max NB NA SB SA L M S L M S dyn C stat Co grease oil bearing kg
60 60 110 22 23 1,50 1,50 69,5 101,5 1,5 1,5 313 1020 2100 71,3 123,0 179,1 64,2 52,8 13 000 B7212C.2RSD.T.P4S.UL 0,782
60 110 22 31 1,50 1,50 69,5 101,5 1,5 1,5 466 1600 3335 166,0 266,1 360,0 61,0 50,5 12 000 B7212E.2RSD.T.P4S.UL 0,782
60 110 22 23 1,50 1,50 69,5 101,5 1,5 1,5 313 1020 2100 71,3 123,0 179,1 64,2 52,8 13 000 20 000 B7212C.T.P4S.UL 0,782
60 110 22 31 1,50 1,50 69,5 101,5 1,5 1,5 466 1600 3335 166,0 266,1 360,0 61,0 50,5 12 000 19 000 B7212E.T.P4S.UL 0,782
60 110 22 23 1,50 1,50 69,5 101,5 1,5 1,5 160 560 1160 61,1 102,3 145,0 64,2 37,0 16 000 26 000 HCB7212C.T.P4S.UL 0,646
60 110 22 31 1,50 1,50 69,5 101,5 1,5 1,5 230 865 1863 144,9 235,7 319,0 61,0 35,4 14 000 22 000 HCB7212E.T.P4S.UL 0,646
60 130 31 28 2,10 2,10 71,0 119,0 2,1 2,1 420 850 1690 95,0 130,0 190,0 84,6 64,7 14 000 22 000 A7312C.T.P4S.UL 1,75
60 130 31 38 2,10 2,10 71,0 119,0 2,1 2,1 720 1430 2870 220,0 290,0 390,0 80,9 61,6 12 500 19 500 A7312E.T.P4S.UL 1,75
65 65 90 13 17 1,00 0,60 70,0 85,5 0,6 0,3 120 420 880 56,7 99,0 146,1 22,9 21,1 14 000 B71913C.2RSD.T.P4S.UL 0,202
65 90 13 25 1,00 0,60 70,0 85,5 0,6 0,3 152 620 1350 127,5 215,0 295,0 21,5 19,6 13 000 B71913E.2RSD.T.P4S.UL 0,202
65 90 13 17 1,00 0,60 70,0 85,5 0,6 0,3 1,5 2,8 1,6 7,2 120 420 880 56,7 99,0 146,1 22,9 21,1 14 000 22 000 B71913C.T.P4S.UL 0,202
65 90 13 25 1,00 0,60 70,0 85,5 0,6 0,3 1,5 2,8 1,6 7,2 152 620 1350 127,5 215,0 295,0 21,5 19,6 13 000 20 000 B71913E.T.P4S.UL 0,202
65 90 13 17 1,00 0,60 70,0 85,5 0,6 0,3 1,5 2,8 1,6 7,2 55 220 480 46,9 82,4 118,0 22,9 14,8 18 000 30 000 HCB71913C.T.P4S.UL 0,173
65 90 13 25 1,00 0,60 70,0 85,5 0,6 0,3 1,5 2,8 1,6 7,2 57 308 720 101,0 185,0 257,0 21,5 13,7 15 000 24 000 HCB71913E.T.P4S.UL 0,173
65 90 13 17 1,00 0,60 70,0 85,5 0,6 0,3 1,5 2,8 1,6 7,2 55 220 480 46,9 82,4 118,0 36,6 14,8 24 000 38 000 XCB71913C.T.P4S.UL 0,173
65 90 13 25 1,00 0,60 70,0 85,5 0,6 0,3 1,5 2,8 1,6 7,2 57 308 720 101,0 185,0 257,0 34,3 13,7 20 000 34 000 XCB71913E.T.P4S.UL 0,173
65 100 18 20 1,10 1,00 72,0 93,0 1,0 0,6 215 720 1490 67,2 115,0 169,0 38,3 36,4 13 000 B7013C.2RSD.T.P4S.UL 0,435
65 100 18 28 1,10 1,00 72,0 93,0 1,0 0,6 310 1120 2375 155,4 254,0 344,0 36,1 33,8 12 000 B7013E.2RSD.T.P4S.UL 0,435
65 100 18 20 1,10 1,00 72,0 93,0 1,0 0,6 1,8 4,0 1,6 10,4 215 720 1490 67,2 115,0 169,0 38,3 36,4 13 000 20 000 B7013C.T.P4S.UL 0,435
65 100 18 28 1,10 1,00 72,0 93,0 1,0 0,6 1,8 4,0 1,6 10,4 310 1120 2375 155,4 254,0 344,0 36,1 33,8 12 000 19 000 B7013E.T.P4S.UL 0,435
65 100 18 20 1,10 1,00 72,0 93,0 1,0 0,6 1,8 4,0 1,6 10,4 110 390 830 57,2 97,0 138,6 38,3 25,5 17 000 28 000 HCB7013C.T.P4S.UL 0,382
65 100 18 28 1,10 1,00 72,0 93,0 1,0 0,6 1,8 4,0 1,6 10,4 136 580 1280 131,5 220,0 300,0 36,1 23,7 15 000 24 000 HCB7013E.T.P4S.UL 0,382
65 100 18 20 1,10 1,00 72,0 93,0 1,0 0,6 1,8 4,0 1,6 10,4 110 390 830 57,2 97,0 138,6 61,3 25,5 22 000 36 000 XCB7013C.T.P4S.UL 0,382
65 100 18 28 1,10 1,00 72,0 93,0 1,0 0,6 1,8 4,0 1,6 10,4 136 580 1280 131,5 220,0 300,0 57,7 23,7 19 000 32 000 XCB7013E.T.P4S.UL 0,382
65 120 23 24 1,50 1,50 75,5 109,5 1,5 1,5 325 1050 2160 75,0 128,8 187,0 66,7 57,9 12 000 B7213C.2RSD.T.P4S.UL 0,997
65 120 23 33 1,50 1,50 75,5 109,5 1,5 1,5 482 1660 3460 175,0 280,1 380,0 63,1 55,2 11 000 B7213E.2RSD.T.P4S.UL 0,997
65 120 23 24 1,50 1,50 75,5 109,5 1,5 1,5 325 1050 2160 75,0 128,8 187,0 66,7 57,9 12 000 19 000 B7213C.T.P4S.UL 0,997
65 120 23 33 1,50 1,50 75,5 109,5 1,5 1,5 482 1660 3460 175,0 280,1 380,0 63,1 55,2 11 000 18 000 B7213E.T.P4S.UL 0,997
65 120 23 24 1,50 1,50 75,5 109,5 1,5 1,5 170 582 1215 65,0 108,0 153,0 66,7 40,5 15 000 24 000 HCB7213C.T.P4S.UL 0,852
65 120 23 33 1,50 1,50 75,5 109,5 1,5 1,5 232 890 1920 153,6 249,0 335,0 63,1 38,7 13 000 20 000 HCB7213E.T.P4S.UL 0,852
70 70 100 16 19 1,00 0,60 76,0 94,5 0,6 0,3 170 585 1230 66,7 115,0 168,0 31,7 29,6 13 000 B71914C.2RSD.T.P4S.UL 0,331
70 100 16 28 1,00 0,60 76,0 94,5 0,6 0,3 232 890 1920 152,0 252,0 340,0 29,8 27,5 12 000 B71914E.2RSD.T.P4S.UL 0,331
70 100 16 19 1,00 0,60 76,0 94,5 0,6 0,3 1,8 3,1 1,6 9,3 170 585 1230 66,7 115,0 168,0 31,7 29,6 13 000 20 000 B71914C.T.P4S.UL 0,331
70 100 16 28 1,00 0,60 76,0 94,5 0,6 0,3 1,8 3,1 1,6 9,3 232 890 1920 152,0 252,0 340,0 29,8 27,5 12 000 19 000 B71914E.T.P4S.UL 0,331
SLF-High-precision bearings | Page 44
B
D
d
a
rs
rs
r1s
rs
α
Contact angleα = 15°/25°
B...C/EHCB...C/EXCB...C/E
SANA
NBSB
DLR-design
B
D
d
a
r1s
rs
r1s
rs
α
B...C/E.2RSD
B
D
d
a
rs
r1s
rs
rs
α
Contact angleα = 15°/25°
A...C/E installation dimension
ra
raDada
rb
raDada
installation dimension
Contact angleα = 15°/25°
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) DLR-dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin r1s min dah12 DaH12 ramax rb max NB NA SB SA L M S L M S dyn C stat Co grease oil bearing kg
70 70 100 16 19 1,00 0,60 76,0 94,5 0,6 0,3 1,8 3,1 1,6 9,3 82 310 670 55,9 96,0 137,0 31,7 20,7 16 000 26 000 HCB71914C.T.P4S.UL 0,283
70 100 16 28 1,00 0,60 76,0 94,5 0,6 0,3 1,8 3,1 1,6 9,3 95 450 1030 126,0 218,0 300,0 29,8 19,3 14 000 22 000 HCB71914E.T.P4S.UL 0,283
70 100 16 19 1,00 0,60 76,0 94,5 0,6 0,3 1,8 3,1 1,6 9,3 82 310 670 55,9 96,0 137,0 50,8 20,7 22 000 36 000 XCB71914C.T.P4S.UL 0,283
70 100 16 28 1,00 0,60 76,0 94,5 0,6 0,3 1,8 3,1 1,6 9,3 95 450 1030 126,0 218,0 300,0 47,7 19,3 18 000 30 000 XCB71914E.T.P4S.UL 0,283
70 110 20 22 1,10 1,00 77,0 102,0 1,0 0,6 275 910 1890 74,0 127,1 185,0 47,8 47,3 12 000 B7014C.2RSD.T.P4S.UL 0,590
70 110 20 31 1,10 1,00 77,0 102,0 1,0 0,6 400 1400 2950 172,0 274,0 373,5 45,0 44,0 11 000 B7014E.2RSD.T.P4S.UL 0,590
70 110 20 22 1,10 1,00 77,0 102,0 1,0 0,6 1,8 4,0 1,6 11,6 275 910 1890 74,0 127,1 185,0 47,8 47,3 12 000 19 000 B7014C.T.P4S.UL 0,590
70 110 20 31 1,10 1,00 77,0 102,0 1,0 0,6 1,8 4,0 1,6 11,6 400 1400 2950 172,0 274,0 373,5 45,0 44,0 11 000 18 000 B7014E.T.P4S.UL 0,590
70 110 20 22 1,10 1,00 77,0 102,0 1,0 0,6 1,8 4,0 1,6 11,6 140 490 1040 63,0 106,0 150,0 47,8 33,1 16 000 26 000 HCB7014C.T.P4S.UL 0,504
70 110 20 31 1,10 1,00 77,0 102,0 1,0 0,6 1,8 4,0 1,6 11,6 185 740 1610 147,0 242,0 326,0 45,0 30,8 13 000 20 000 HCB7014E.T.P4S.UL 0,504
70 110 20 22 1,10 1,00 77,0 102,0 1,0 0,6 1,8 4,0 1,6 11,6 140 490 1040 63,0 106,0 150,0 76,4 33,1 20 000 34 000 XCB7014C.T.P4S.UL 0,504
70 110 20 31 1,10 1,00 77,0 102,0 1,0 0,6 1,8 4,0 1,6 11,6 185 740 1610 147,0 242,0 326,0 72,0 30,8 17 000 28 000 XCB7014E.T.P4S.UL 0,504
70 125 24 25 1,50 1,50 80,0 115,0 1,5 1,5 402 1300 2660 84,0 143,6 208,0 66,3 58,9 11 000 18 000 B7214C.T.P4S.UL 1,08
70 125 24 35 1,50 1,50 80,0 115,0 1,5 1,5 600 2040 4240 195,0 310,0 422,0 62,7 56,2 10 000 17 000 B7214E.T.P4S.UL 1,08
70 125 24 25 1,50 1,50 80,0 115,0 1,5 1,5 207 709 1480 72,0 120,0 170,0 66,3 41,2 14 000 22 000 HCB7214C.T.P4S.UL 0,925
70 125 24 35 1,50 1,50 80,0 115,0 1,5 1,5 293 1100 2350 171,5 276,5 371,0 62,7 39,3 12 000 19 000 HCB7214E.T.P4S.UL 0,925
75 75 105 16 20 1,00 0,60 81,0 99,5 0,6 0,3 172 594 1244 68,3 118,4 172,3 31,3 29,4 12 000 B71915C.2RSD.T.P4S.UL 0,351
75 105 16 29 1,00 0,60 81,0 99,5 0,6 0,3 234 900 1940 156,0 258,1 353,0 29,3 27,4 11 000 B71915E.2RSD.T.P4S.UL 0,351
75 105 16 20 1,00 0,60 81,0 99,5 0,6 0,3 1,8 3,1 1,6 9,3 172 594 1244 68,3 118,4 172,3 31,3 29,4 12 000 19 000 B71915C.T.P4S.UL 0,351
75 105 16 29 1,00 0,60 81,0 99,5 0,6 0,3 1,8 3,1 1,6 9,3 234 900 1940 156,0 258,1 353,0 29,3 27,4 11 000 18 000 B71915E.T.P4S.UL 0,351
75 105 16 20 1,00 0,60 81,0 99,5 0,6 0,3 1,8 3,1 1,6 9,3 84 320 690 57,9 99,4 141,5 31,3 20,6 16 000 26 000 HCB71915C.T.P4S.UL 0,303
75 105 16 29 1,00 0,60 81,0 99,5 0,6 0,3 1,8 3,1 1,6 9,3 96 455 1040 129,2 226,0 307,9 29,3 19,2 13 000 20 000 HCB71915E.T.P4S.UL 0,303
75 105 16 20 1,00 0,60 81,0 99,5 0,6 0,3 1,8 3,1 1,6 9,3 84 320 690 57,9 99,4 141,5 50,0 20,6 20 000 34 000 XCB71915C.T.P4S.UL 0,303
75 105 16 29 1,00 0,60 81,0 99,5 0,6 0,3 1,8 3,1 1,6 9,3 96 455 1040 129,2 226,0 307,9 47,0 19,2 17 000 28 000 XCB71915E.T.P4S.UL 0,303
75 115 20 23 1,10 1,00 82,0 107,0 1,0 0,6 280 930 1925 76,6 132,0 192,0 48,7 49,2 12 000 B7015C.2RSD.T.P4S.UL 0,620
75 115 20 32 1,10 1,00 82,0 107,0 1,0 0,6 405 1440 3030 177,5 288,0 390,0 45,8 45,7 11 000 B7015E.2RSD.T.P4S.UL 0,620
75 115 20 23 1,10 1,00 82,0 107,0 1,0 0,6 1,8 4,0 1,6 11,6 280 930 1925 76,6 132,0 192,0 48,7 49,2 12 000 19 000 B7015C.T.P4S.UL 0,620
75 115 20 32 1,10 1,00 82,0 107,0 1,0 0,6 1,8 4,0 1,6 11,6 405 1440 3030 177,5 288,0 390,0 45,8 45,7 11 000 18 000 B7015E.T.P4S.UL 0,620
75 115 20 23 1,10 1,00 82,0 107,0 1,0 0,6 1,8 4,0 1,6 11,6 142 508 1070 66,1 111,0 157,0 48,7 34,4 15 000 24 000 HCB7015C.T.P4S.UL 0,530
75 115 20 32 1,10 1,00 82,0 107,0 1,0 0,6 1,8 4,0 1,6 11,6 192 760 1670 154,0 254,0 343,0 45,8 32,0 13 000 20 000 HCB7015E.T.P4S.UL 0,530
75 115 20 23 1,10 1,00 82,0 107,0 1,0 0,6 1,8 4,0 1,6 11,6 142 508 1070 66,1 111,0 157,0 77,8 34,4 19 000 32 000 XCB7015C.T.P4S.UL 0,530
75 115 20 32 1,10 1,00 82,0 107,0 1,0 0,6 1,8 4,0 1,6 11,6 192 760 1670 154,0 254,0 343,0 73,3 32,0 16 000 26 000 XCB7015E.T.P4S.UL 0,530
SLF-High-precision bearings | Page 45
B
D
d
a
rs
rs
r1s
rs
α
Contact angleα = 15°/25°
B...C/EHCB...C/EXCB...C/E
SANA
NBSB
DLR-design
B
D
d
a
r1s
rs
r1s
rs
α
B...C/E.2RSD
B
D
d
a
rs
r1s
rs
rs
α
Contact angleα = 15°/25°
A...C/E installation dimension
ra
raDada
rb
raDada
installation dimension
Contact angleα = 15°/25°
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) DLR-dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin r1s min dah12 DaH12 ramax rb max NB NA SB SA L M S L M S dyn C stat Co grease oil bearing kg
75 75 130 25 26 1,50 1,50 85,0 120,0 1,5 1,5 415 1345 2760 87,6 150,0 217,0 80,0 71,9 11 000 18 000 B7215C.T.P4S.UL 1,18
75 130 25 36 1,50 1,50 85,0 120,0 1,5 1,5 620 2100 4390 205,0 325,0 441,9 75,8 68,5 9 500 16 000 B7215E.T.P4S.UL 1,18
75 130 25 26 1,50 1,50 85,0 120,0 1,5 1,5 215 735 1530 75,0 126,0 177,5 80,0 50,3 14 000 22 000 HCB7215C.T.P4S.UL 0,987
75 130 25 36 1,50 1,50 85,0 120,0 1,5 1,5 305 1140 2440 180,2 291,0 389,0 75,8 48,0 12 000 19 000 HCB7215E.T.P4S.UL 0,987
80 80 110 16 21 1,00 0,60 86,0 104,0 0,6 0,3 174 600 1260 70,1 120,0 175,0 32,5 31,7 12 000 B71916C.2RSD.T.P4S.UL 0,370
80 110 16 30 1,00 0,60 86,0 104,0 0,6 0,3 236 910 1970 160,6 260,0 365,0 30,5 29,6 11 000 B71916E.2RSD.T.P4S.UL 0,370
80 110 16 21 1,00 0,60 86,0 104,0 0,6 0,3 1,8 3,1 1,6 9,3 174 600 1260 70,1 120,0 175,0 32,5 31,7 12 000 19 000 B71916C.T.P4S.UL 0,370
80 110 16 30 1,00 0,60 86,0 104,0 0,6 0,3 1,8 3,1 1,6 9,3 236 910 1970 160,6 260,0 365,0 30,5 29,6 11 000 18 000 B71916E.T.P4S.UL 0,370
80 110 16 21 1,00 0,60 86,0 104,0 0,6 0,3 1,8 3,1 1,6 9,3 83 320 690 58,5 102,0 144,8 32,5 22,2 15 000 24 000 HCB71916C.T.P4S.UL 0,318
80 110 16 30 1,00 0,60 86,0 104,0 0,6 0,3 1,8 3,1 1,6 9,3 95 460 1050 133,0 233,0 318,1 30,5 20,7 13 000 20 000 HCB71916E.T.P4S.UL 0,318
80 110 16 21 1,00 0,60 86,0 104,0 0,6 0,3 1,8 3,1 1,6 9,3 83 320 690 58,5 102,0 144,8 52,0 22,2 19 000 32 000 XCB71916C.T.P4S.UL 0,318
80 110 16 30 1,00 0,60 86,0 104,0 0,6 0,3 1,8 3,1 1,6 9,3 95 460 1050 133,0 233,0 318,1 48,8 20,7 16 000 26 000 XCB71916E.T.P4S.UL 0,318
80 125 22 25 1,10 1,00 88,0 117,0 1,0 0,6 355 1160 2390 86,1 148,0 214,0 58,1 58,3 11 000 B7016C.2RSD.T.P4S.UL 0,857
80 125 22 35 1,10 1,00 88,0 117,0 1,0 0,6 530 1830 3830 200,0 322,0 440,0 54,7 54,2 9 500 B7016E.2RSD.T.P4S.UL 0,857
80 125 22 25 1,10 1,00 88,0 117,0 1,0 0,6 1,8 4,7 2,6 12,2 355 1160 2390 86,1 148,0 214,0 58,1 58,3 11 000 18 000 B7016C.T.P4S.UL 0,857
80 125 22 35 1,10 1,00 88,0 117,0 1,0 0,6 1,8 4,7 2,6 12,2 530 1830 3830 200,0 322,0 440,0 54,7 54,2 9 500 16 000 B7016E.T.P4S.UL 0,857
80 125 22 25 1,10 1,00 88,0 117,0 1,0 0,6 1,8 4,7 2,6 12,2 185 640 1350 73,9 125,0 176,0 58,1 40,8 14 000 22 000 HCB7016C.T.P4S.UL 0,738
80 125 22 35 1,10 1,00 88,0 117,0 1,0 0,6 1,8 4,7 2,6 12,2 250 970 2090 175,0 285,1 383,9 54,7 37,9 12 000 19 000 HCB7016E.T.P4S.UL 0,738
80 125 22 25 1,10 1,00 88,0 117,0 1,0 0,6 1,8 4,7 2,6 12,2 185 640 1350 73,9 125,0 176,0 92,9 40,8 18 000 30 000 XCB7016C.T.P4S.UL 0,738
80 125 22 35 1,10 1,00 88,0 117,0 1,0 0,6 1,8 4,7 2,6 12,2 250 970 2090 175,0 285,1 383,9 87,5 37,9 15 000 24 000 XCB7016E.T.P4S.UL 0,738
80 140 26 28 2,00 2,00 91,0 129,0 2,0 2,0 555 1760 3600 95,2 162,0 234,0 92,1 82,3 10 000 17 000 B7216C.T.P4S.UL 1,45
80 140 26 39 2,00 2,00 91,0 129,0 2,0 2,0 840 2780 5750 221,9 351,0 475,0 87,3 78,5 9 000 15 000 B7216E.T.P4S.UL 1,45
80 140 26 28 2,00 2,00 91,0 129,0 2,0 2,0 290 960 1995 82,0 135,1 190,0 92,1 57,6 12 000 19 000 HCB7216C.T.P4S.UL 1,20
80 140 26 39 2,00 2,00 91,0 129,0 2,0 2,0 420 1515 3200 196,0 312,0 416,0 87,3 55,0 11 000 18 000 HCB7216E.T.P4S.UL 1,20
85 85 120 18 23 1,10 1,00 92,0 114,0 0,6 0,6 240 806 1675 80,1 138,0 200,0 41,9 43,3 11 000 B71917C.2RSD.T.P4S.UL 0,536
85 120 18 33 1,10 1,00 92,0 114,0 0,6 0,6 335 1230 2630 184,9 300,0 410,0 39,4 40,3 9 500 B71917E.2RSD.T.P4S.UL 0,536
85 120 18 23 1,10 1,00 92,0 114,0 0,6 0,6 1,8 4,0 2,2 10,4 240 806 1675 80,1 138,0 200,0 41,9 43,3 11 000 18 000 B71917C.T.P4S.UL 0,536
85 120 18 33 1,10 1,00 92,0 114,0 0,6 0,6 1,8 4,0 2,2 10,4 335 1230 2630 184,9 300,0 410,0 39,4 40,3 9 500 16 000 B71917E.T.P4S.UL 0,536
85 120 18 23 1,10 1,00 92,0 114,0 0,6 0,6 1,8 4,0 2,2 10,4 120 440 935 68,3 116,1 165,0 41,9 30,3 13 000 20 000 HCB71917C.T.P4S.UL 0,460
85 120 18 33 1,10 1,00 92,0 114,0 0,6 0,6 1,8 4,0 2,2 10,4 148 640 1440 158,0 266,5 362,0 39,4 28,2 12 000 19 000 HCB71917E.T.P4S.UL 0,460
85 120 18 23 1,10 1,00 92,0 114,0 0,6 0,6 1,8 4,0 2,2 10,4 120 440 935 68,3 116,1 165,0 67,0 30,3 18 000 30 000 XCB71917C.T.P4S.UL 0,460
85 120 18 33 1,10 1,00 92,0 114,0 0,6 0,6 1,8 4,0 2,2 10,4 148 640 1440 158,0 266,5 362,0 63,0 28,2 15 000 24 000 XCB71917E.T.P4S.UL 0,460
SLF-High-precision bearings | Page 46
B
D
d
a
rs
rs
r1s
rs
α
Contact angleα = 15°/25°
B...C/EHCB...C/EXCB...C/E
SANA
NBSB
DLR-design
B
D
d
a
r1s
rs
r1s
rs
α
B...C/E.2RSD
B
D
d
a
rs
r1s
rs
rs
α
Contact angleα = 15°/25°
A...C/E installation dimension
ra
raDada
rb
raDada
installation dimension
Contact angleα = 15°/25°
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) DLR-dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin r1s min dah12 DaH12 ramax rb max NB NA SB SA L M S L M S dyn C stat Co grease oil bearing kg
85 85 130 22 25 1,10 1,00 93,0 122,0 1,0 0,6 372 1205 2480 90,1 154,0 222,9 59,3 60,8 10 000 B7017C.2RSD.T.P4S.UL 0,903
85 130 22 36 1,10 1,00 93,0 122,0 1,0 0,6 544 1890 3950 211,0 336,9 457,1 55,9 56,5 9 000 B7017E.2RSD.T.P4S.UL 0,903
85 130 22 25 1,10 1,00 93,0 122,0 1,0 0,6 1,8 4,7 2,6 12,2 372 1205 2480 90,1 154,0 222,9 59,3 60,8 10 000 17 000 B7017C.T.P4S.UL 0,903
85 130 22 36 1,10 1,00 93,0 122,0 1,0 0,6 1,8 4,7 2,6 12,2 544 1890 3950 211,0 336,9 457,1 55,9 56,5 9 000 15 000 B7017E.T.P4S.UL 0,903
85 130 22 25 1,10 1,00 93,0 122,0 1,0 0,6 1,8 4,7 2,6 12,2 190 666 1400 78,0 129,9 185,0 59,3 42,6 13 000 20 000 HCB7017C.T.P4S.UL 0,778
85 130 22 36 1,10 1,00 93,0 122,0 1,0 0,6 1,8 4,7 2,6 12,2 262 1010 2180 185,0 300,0 401,0 55,9 39,6 11 000 18 000 HCB7017E.T.P4S.UL 0,778
85 130 22 25 1,10 1,00 93,0 122,0 1,0 0,6 1,8 4,7 2,6 12,2 190 666 1400 78,0 129,9 185,0 94,9 42,6 17 000 28 000 XCB7017C.T.P4S.UL 0,778
85 130 22 36 1,10 1,00 93,0 122,0 1,0 0,6 1,8 4,7 2,6 12,2 262 1010 2180 185,0 300,0 401,0 89,4 39,6 14 000 22 000 XCB7017E.T.P4S.UL 0,778
85 150 28 30 2,00 2,00 98,0 138,0 2,0 2,0 575 1830 3740 100,0 170,0 244,8 96,0 85,2 9 000 15 000 B7217C.T.P4S.UL 1,85
85 150 28 41 2,00 2,00 98,0 138,0 2,0 2,0 870 2890 5970 233,0 372,0 504,0 90,9 81,2 8 000 13 000 B7217E.T.P4S.UL 1,85
85 150 28 30 2,00 2,00 98,0 138,0 2,0 2,0 300 1000 2070 86,5 143,0 200,0 96,0 59,6 11 000 18 000 HCB7217C.T.P4S.UL 1,55
85 150 28 41 2,00 2,00 98,0 138,0 2,0 2,0 439 1570 3325 205,0 329,0 442,0 90,9 56,9 10 000 17 000 HCB7217E.T.P4S.UL 1,55
90 90 125 18 23 1,10 1,00 97,0 119,0 0,6 0,6 242 810 1690 82,5 142,0 206,0 37,4 39,5 10 000 B71918C.2RSD.T.P4S.UL 0,565
90 125 18 34 1,10 1,00 97,0 119,0 0,6 0,6 339 1240 2660 190,0 310,0 424,0 35,1 36,8 9 000 B71918E.2RSD.T.P4S.UL 0,565
90 125 18 23 1,10 1,00 97,0 119,0 0,6 0,6 1,8 4,0 2,4 10,4 242 810 1690 82,5 142,0 206,0 37,4 39,5 10 000 17 000 B71918C.T.P4S.UL 0,565
90 125 18 34 1,10 1,00 97,0 119,0 0,6 0,6 1,8 4,0 2,4 10,4 339 1240 2660 190,0 310,0 424,0 35,1 36,8 9 000 15 000 B71918E.T.P4S.UL 0,565
90 125 18 23 1,10 1,00 97,0 119,0 0,6 0,6 1,8 4,0 2,4 10,4 121 444 950 70,7 120,0 170,2 37,4 27,6 13 000 20 000 HCB71918C.T.P4S.UL 0,493
90 125 18 34 1,10 1,00 97,0 119,0 0,6 0,6 1,8 4,0 2,4 10,4 150 650 1460 162,0 275,0 375,0 35,1 25,8 11 000 18 000 HCB71918E.T.P4S.UL 0,493
90 125 18 23 1,10 1,00 97,0 119,0 0,6 0,6 1,8 4,0 2,4 10,4 121 444 950 70,7 120,0 170,2 59,8 27,6 17 000 28 000 XCB71918C.T.P4S.UL 0,493
90 125 18 34 1,10 1,00 97,0 119,0 0,6 0,6 1,8 4,0 2,4 10,4 150 650 1460 162,0 275,0 375,0 56,2 25,8 14 000 22 000 XCB71918E.T.P4S.UL 0,493
90 140 24 27 1,50 1,10 100,0 131,0 1,5 0,6 440 1430 2930 96,2 164,0 235,0 75,1 76,0 9 500 B7018C.2RSD.T.P4S.UL 1,18
90 140 24 39 1,50 1,10 100,0 131,0 1,5 0,6 650 2220 4630 222,8 357,0 482,0 70,8 70,6 8 500 B7018E.2RSD.T.P4S.UL 1,18
90 140 24 27 1,50 1,10 100,0 131,0 1,5 0,6 1,8 4,4 2,6 13,3 440 1430 2930 96,2 164,0 235,0 75,1 76,0 9 500 16 000 B7018C.T.P4S.UL 1,18
90 140 24 39 1,50 1,10 100,0 131,0 1,5 0,6 1,8 4,4 2,6 13,3 650 2220 4630 222,8 357,0 482,0 70,8 70,6 8 500 14 000 B7018E.T.P4S.UL 1,18
90 140 24 27 1,50 1,10 100,0 131,0 1,5 0,6 1,8 4,4 2,6 13,3 223 777 1620 83,2 136,0 192,0 75,1 53,2 12 000 19 000 HCB7018C.T.P4S.UL 0,996
90 140 24 39 1,50 1,10 100,0 131,0 1,5 0,6 1,8 4,4 2,6 13,3 320 1205 2590 198,0 320,0 428,0 70,8 49,4 10 000 17 000 HCB7018E.T.P4S.UL 0,996
90 140 24 27 1,50 1,10 100,0 131,0 1,5 0,6 1,8 4,4 2,6 13,3 223 777 1620 83,2 136,0 192,0 120,2 53,2 15 000 24 000 XCB7018C.T.P4S.UL 0,996
90 140 24 39 1,50 1,10 100,0 131,0 1,5 0,6 1,8 4,4 2,6 13,3 320 1205 2590 198,0 320,0 428,0 113,3 49,4 13 000 20 000 XCB7018E.T.P4S.UL 0,996
90 160 30 32 2,00 2,00 104,0 147,0 2,0 2,0 740 2330 4750 110,0 186,0 268,0 118,1 110,3 8 500 14 000 B7218C.T.P4S.UL 2,25
90 160 30 44 2,00 2,00 104,0 147,0 2,0 2,0 1140 3720 7650 256,0 405,0 550,0 111,9 105,3 7 500 12 000 B7218E.T.P4S.UL 2,25
90 160 30 32 2,00 2,00 104,0 147,0 2,0 2,0 400 1310 2690 96,5 158,0 221,0 118,1 77,2 11 000 18 000 HCB7218C.T.P4S.UL 1,87
90 160 30 44 2,00 2,00 104,0 147,0 2,0 2,0 580 2020 4250 231,0 363,0 485,0 111,9 73,7 9 000 15 000 HCB7218E.T.P4S.UL 1,87
SLF-High-precision bearings | Page 47
B
D
d
a
rs
rs
r1s
rs
α
Contact angleα = 15°/25°
B...C/EHCB...C/EXCB...C/E
SANA
NBSB
DLR-design
B
D
d
a
r1s
rs
r1s
rs
α
B...C/E.2RSD
B
D
d
a
rs
r1s
rs
rs
α
Contact angleα = 15°/25°
A...C/E installation dimension
ra
raDada
rb
raDada
installation dimension
Contact angleα = 15°/25°
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) DLR-dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin r1s min dah12 DaH12 ramax rb max NB NA SB SA L M S L M S dyn C stat Co grease oil bearing kg
95 95 130 18 24 1,10 1,00 102,0 124,0 0,6 0,6 244 830 1720 84,6 146,0 211,9 43,3 46,6 9 500 B71919C.2RSD..T.P4S.UL 0,578
95 130 18 35 1,10 1,00 102,0 124,0 0,6 0,6 345 1270 2715 195,0 320,5 436,8 40,7 43,4 8 500 B71919E.2RSD.T.P4S.UL 0,578
95 130 18 24 1,10 1,00 102,0 124,0 0,6 0,6 1,8 4,0 2,4 10,4 244 830 1720 84,6 146,0 211,9 43,3 46,6 9 500 16 000 B71919C.T.P4S.UL 0,578
95 130 18 35 1,10 1,00 102,0 124,0 0,6 0,6 1,8 4,0 2,4 10,4 345 1270 2715 195,0 320,5 436,8 40,7 43,4 8 500 14 000 B71919E.T.P4S.UL 0,578
95 130 18 24 1,10 1,00 102,0 124,0 0,6 0,6 1,8 4,0 2,4 10,4 120 440 950 72,8 124,0 175,0 43,3 32,6 12 000 19 000 HCB71919C.T.P4S.UL 0,495
95 130 18 35 1,10 1,00 102,0 124,0 0,6 0,6 1,8 4,0 2,4 10,4 150 665 1480 166,0 285,0 385,0 40,7 30,4 10 000 17 000 HCB71919E.T.P4S.UL 0,495
95 130 18 24 1,10 1,00 102,0 124,0 0,6 0,6 1,8 4,0 2,4 10,4 120 440 950 72,8 124,0 175,0 69,3 32,6 16 000 26 000 XCB71919C.T.P4S.UL 0,495
95 130 18 35 1,10 1,00 102,0 124,0 0,6 0,6 1,8 4,0 2,4 10,4 150 665 1480 166,0 285,0 385,0 65,1 30,4 14 000 22 000 XCB71919E.T.P4S.UL 0,495
95 145 24 28 1,50 1,10 105,0 136,0 1,5 0,6 450 1450 2980 99,1 169,0 248,0 72,2 74,4 9 000 B7019C.2RSD.T.P4S.UL 1,19
95 145 24 40 1,50 1,10 105,0 136,0 1,5 0,6 670 2315 4815 234,4 374,0 506,0 68,0 62,2 8 000 B7019E.2RSD.T.P4S.UL 1,19
95 145 24 28 1,50 1,10 105,0 136,0 1,5 0,6 1,8 5,5 2,6 14,5 450 1450 2980 99,1 169,0 248,0 72,2 74,4 9 000 15 000 B7019C.T.P4S.UL 1,19
95 145 24 40 1,50 1,10 105,0 136,0 1,5 0,6 1,8 5,5 2,6 14,5 670 2315 4815 234,4 374,0 506,0 68,0 62,2 8 000 13 000 B7019E.T.P4S.UL 1,19
95 145 24 28 1,50 1,10 105,0 136,0 1,5 0,6 1,8 5,5 2,6 14,5 240 815 1690 86,7 144,5 202,5 72,2 52,1 11 000 18 000 HCB7019C.T.P4S.UL 1,02
95 145 24 40 1,50 1,10 105,0 136,0 1,5 0,6 1,8 5,5 2,6 14,5 325 1230 2650 205,0 331,6 444,5 68,0 48,5 9 500 16 000 HCB7019E.T.P4S.UL 1,02
95 145 24 28 1,50 1,10 105,0 136,0 1,5 0,6 1,8 5,5 2,6 14,5 240 815 1690 86,7 144,5 202,5 115,5 52,1 15 000 24 000 XCB7019C.T.P4S.UL 1,02
95 145 24 40 1,50 1,10 105,0 136,0 1,5 0,6 1,8 5,5 2,6 14,5 325 1230 2650 205,0 331,6 444,5 108,8 48,5 13 000 20 000 XCB7019E.T.P4S.UL 1,02
95 170 32 34 2,10 2,10 110,5 154,0 2,0 2,0 770 2430 4930 114,9 196,0 282,0 117,9 107,3 8 000 13 000 B7219C.T.P4S.UL 2,72
95 170 32 47 2,10 2,10 110,5 154,0 2,0 2,0 1195 3900 8040 274,2 432,0 582,0 111,7 102,3 7 000 11 000 B7219E.T.P4S.UL 2,72
95 170 32 34 2,10 2,10 110,5 154,0 2,0 2,0 410 1350 2780 100,8 166,2 232,1 117,9 75,1 10 000 17 000 HCB7219C.T.P4S.UL 2,30
95 170 32 47 2,10 2,10 110,5 154,0 2,0 2,0 600 2090 4400 243,0 382,6 510,0 111,7 71,6 8 500 14 000 HCB7219E.T.P4S.UL 2,30
100 100 140 20 26 1,10 1,00 107,0 133,0 0,6 0,6 320 1060 2195 93,9 162,0 234,1 52,3 57,2 9 000 B71920C.2RSD.T.P4S.UL 0,882
100 140 20 38 1,10 1,00 107,0 133,0 0,6 0,6 455 1630 3440 220,5 355,0 482,0 49,3 53,3 8 000 B71920E.2RSD.T.P4S.UL 0,882
100 140 20 26 1,10 1,00 107,0 133,0 0,6 0,6 1,8 4,0 2,6 12,0 320 1060 2195 93,9 162,0 234,1 52,3 57,2 9 000 15 000 B71920C.T.P4S.UL 0,882
100 140 20 38 1,10 1,00 107,0 133,0 0,6 0,6 1,8 4,0 2,6 12,0 455 1630 3440 220,5 355,0 482,0 49,3 53,3 8 000 13 000 B71920E.T.P4S.UL 0,882
100 140 20 26 1,10 1,00 107,0 133,0 0,6 0,6 1,8 4,0 2,6 12,0 160 577 1220 81,2 136,3 192,0 52,3 40,1 11 000 18 000 HCB71920C.T.P4S.UL 0,758
100 140 20 38 1,10 1,00 107,0 133,0 0,6 0,6 1,8 4,0 2,6 12,0 202 850 1880 187,5 314,0 424,3 49,3 37,3 9 500 16 000 HCB71920E.T.P4S.UL 0,758
100 140 20 26 1,10 1,00 107,0 133,0 0,6 0,6 1,8 4,0 2,6 12,0 160 577 1220 81,2 136,3 192,0 83,7 40,1 15 000 24 000 XCB71920C.T.P4S.UL 0,758
100 140 20 38 1,10 1,00 107,0 133,0 0,6 0,6 1,8 4,0 2,6 12,0 202 850 1880 187,5 314,0 424,3 78,8 37,3 12 000 19 000 XCB71920E.T.P4S.UL 0,758
100 150 24 29 1,50 1,10 110,0 141,0 1,5 0,6 465 1520 3110 103,7 177,5 256,0 78,8 82,9 8 500 B7020C.2RSD.T.P4S.UL 1,28
100 150 24 41 1,50 1,10 110,0 141,0 1,5 0,6 683 2345 4900 243,1 387,0 525,0 74,2 77,1 7 500 B7020E.2RSD.T.P4S.UL 1,28
100 150 24 29 1,50 1,10 110,0 141,0 1,5 0,6 1,8 5,5 2,6 14,5 465 1520 3110 103,7 177,5 256,0 78,8 82,9 8 500 14 000 B7020C.T.P4S.UL 1,28
100 150 24 41 1,50 1,10 110,0 141,0 1,5 0,6 1,8 5,5 2,6 14,5 683 2345 4900 243,1 387,0 525,0 74,2 77,1 7 500 12 000 B7020E.T.P4S.UL 1,28
SLF-High-precision bearings | Page 48
B
D
d
a
rs
rs
r1s
rs
α
Contact angleα = 15°/25°
B...C/EHCB...C/EXCB...C/E
SANA
NBSB
DLR-design
B
D
d
a
r1s
rs
r1s
rs
α
B...C/E.2RSD
B
D
d
a
rs
r1s
rs
rs
α
Contact angleα = 15°/25°
A...C/E installation dimension
ra
raDada
rb
raDada
installation dimension
Contact angleα = 15°/25°
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) DLR-dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin r1s min dah12 DaH12 ramax rb max NB NA SB SA L M S L M S dyn C stat Co grease oil bearing kg
100 100 150 24 29 1,50 1,10 110,0 141,0 1,5 0,6 1,8 5,5 2,6 14,5 240 820 1705 89,2 149,5 208,5 78,8 58,1 11 000 18 000 HCB7020C.T.P4S.UL 1,08
100 150 24 41 1,50 1,10 110,0 141,0 1,5 0,6 1,8 5,5 2,6 14,5 332 1270 2735 213,5 346,0 465,0 74,2 54,0 9 000 15 000 HCB7020E.T.P4S.UL 1,08
100 150 24 29 1,50 1,10 110,0 141,0 1,5 0,6 1,8 5,5 2,6 14,5 240 820 1705 89,2 149,5 208,5 126,1 58,1 14 000 22 000 XCB7020C.T.P4S.UL 1,08
100 150 24 41 1,50 1,10 110,0 141,0 1,5 0,6 1,8 5,5 2,6 14,5 332 1270 2735 213,5 346,0 465,0 118,7 54,0 12 000 19 000 XCB7020E.T.P4S.UL 1,08
100 180 34 36 2,10 2,10 114,5 165,5 2,1 2,1 2,0 6,5 2,6 20,4 795 2520 5130 122,0 205,5 294,0 121,8 115,6 7 500 12 000 B7220C.T.P4S.UL 3,21
100 180 34 50 2,10 2,10 114,5 165,5 2,1 2,1 2,0 6,5 2,6 20,4 1210 4000 8250 287,0 450,0 606,0 115,2 110,1 6 700 10 000 B7220E.T.P4S.UL 3,21
100 180 34 36 2,10 2,10 114,5 165,5 2,1 2,1 2,0 6,5 2,6 20,4 430 1410 2900 105,9 174,6 245,0 121,8 80,9 9 500 16 000 HCB7220C.T.P4S.UL 2,76
100 180 34 50 2,10 2,10 114,5 165,5 2,1 2,1 2,0 6,5 2,6 20,4 620 2180 5430 256,0 404,0 548,1 115,2 77,1 8 000 13 000 HCB7220E.T.P4S.UL 2,76
105 105 145 20 27 1,10 1,00 112,0 138,0 0,6 0,6 320 1060 2190 93,8 160,8 234,0 52,3 55,9 8 500 B71921C.2RSD.T.P4S.UL 0,810
105 145 20 39 1,10 1,00 112,0 138,0 0,6 0,6 455 1630 3440 220,0 355,0 481,6 49,1 52,1 7 500 B71921E.2RSD.T.P4S.UL 0,810
105 145 20 27 1,10 1,00 112,0 138,0 0,6 0,6 1,8 4,0 2,6 12,0 320 1060 2190 93,8 160,8 234,0 52,3 55,9 8 500 14 000 B71921C.T.P4S.UL 0,810
105 145 20 39 1,10 1,00 112,0 138,0 0,6 0,6 1,8 4,0 2,6 12,0 455 1630 3440 220,0 355,0 481,6 49,1 52,1 7 500 12 000 B71921E.T.P4S.UL 0,810
105 145 20 27 1,10 1,00 112,0 138,0 0,6 0,6 1,8 4,0 2,6 12,0 160 580 1220 81,5 137,8 190,5 52,3 39,1 11 000 18 000 HCB71921C.T.P4S.UL 0,686
105 145 20 39 1,10 1,00 112,0 138,0 0,6 0,6 1,8 4,0 2,6 12,0 202 850 1880 186,9 315,0 424,3 49,1 36,4 9 000 15 000 HCB71921E.T.P4S.UL 0,686
105 145 20 27 1,10 1,00 112,0 138,0 0,6 0,6 1,8 4,0 2,6 12,0 160 580 1220 81,5 137,8 190,5 83,6 39,1 14 000 22 000 XCB71921C.T.P4S.UL 0,686
105 145 20 39 1,10 1,00 112,0 138,0 0,6 0,6 1,8 4,0 2,6 12,0 202 850 1880 186,9 315,0 424,3 78,6 36,4 12 000 19 000 XCB71921E.T.P4S.UL 0,686
105 160 26 31 2,00 1,10 116,0 150,0 2,0 1,0 620 2000 4080 113,8 193,4 280,0 98,8 98,8 8 000 B7021C.2RSD.T.P4S.UL 1,52
105 160 26 44 2,00 1,10 116,0 150,0 2,0 1,0 960 3200 6645 270,0 428,4 577,0 93,2 91,7 7 000 B7021E.2RSD.T.P4S.UL 1,52
105 160 26 31 2,00 1,10 116,0 150,0 2,0 1,0 2,0 6,0 2,6 15,2 620 2000 4080 113,8 193,4 280,0 98,8 98,8 8 000 13 000 B7021C.T.P4S.UL 1,52
105 160 26 44 2,00 1,10 116,0 150,0 2,0 1,0 2,0 6,0 2,6 15,2 960 3200 6645 270,0 428,4 577,0 93,2 91,7 7 000 11 000 B7021E.T.P4S.UL 1,52
105 160 26 44 2,00 1,10 116,0 150,0 2,0 1,0 2,0 6,0 2,6 15,2 335 1130 2330 100,3 165,0 230,0 98,8 69,1 10 000 17 000 HCB7021C.T.P4S.UL 1,21
105 160 26 44 2,00 1,10 116,0 150,0 2,0 1,0 2,0 6,0 2,6 15,2 470 1700 3620 236,0 380,0 505,0 93,2 64,2 8 500 14 000 HCB7021E.T.P4S.UL 1,21
105 160 26 44 2,00 1,10 116,0 150,0 2,0 1,0 2,0 6,0 2,6 15,2 335 1130 2330 100,3 165,0 230,0 158,1 69,1 13 000 20 000 XCB7021C.T.P4S.UL 1,21
105 160 26 44 2,00 1,10 116,0 150,0 2,0 1,0 2,0 6,0 2,6 15,2 470 1700 3620 236,0 380,0 505,0 149,2 64,2 11 000 18 000 XCB7021E.T.P4S.UL 1,21
105 190 36 38 2,10 2,10 120,5 174,5 2,1 2,1 1000 3130 6380 132,0 222,2 320,0 151,3 140,3 7 000 11 000 B7221C.T.P4S.UL 3,88
105 190 36 52 2,10 2,10 120,5 174,5 2,1 2,1 1558 5050 10300 312,0 490,0 660,0 143,4 133,8 6 300 9 500 B7221E.T.P4S.UL 3,88
105 190 36 38 2,10 2,10 120,5 174,5 2,1 2,1 530 1730 3560 114,8 188,0 263,0 151,3 98,2 9 000 15 000 HCB7221C.T.P4S.UL 3,25
105 190 36 52 2,10 2,10 120,5 174,5 2,1 2,1 804 2760 5750 280,6 439,0 582,0 143,4 93,7 7 500 12 000 HCB7221E.T.P4S.UL 3,25
110 110 150 20 27 1,10 1,00 117,0 143,0 0,6 0,6 315 1050 2190 96,5 164,5 235,0 52,7 59,0 8 000 B71922C.2RSD.T.P4S.UL 0,850
110 150 20 40 1,10 1,00 117,0 143,0 0,6 0,6 460 1650 3495 226,3 365,0 496,0 49,6 55,0 7 500 B71922E.2RSD.T.P4S.UL 0,850
110 150 20 27 1,10 1,00 117,0 143,0 0,6 0,6 1,8 4,0 2,6 12,0 315 1050 2190 96,5 164,5 235,0 52,7 59,0 8 000 13 000 B71922C.T.P4S.UL 0,850
110 150 20 40 1,10 1,00 117,0 143,0 0,6 0,6 1,8 4,0 2,6 12,0 460 1650 3495 226,3 365,0 496,0 49,6 55,0 7 500 12 000 B71922E.T.P4S.UL 0,850
SLF-High-precision bearings | Page 49
B
D
d
a
rs
rs
r1s
rs
α
Contact angleα = 15°/25°
B...C/EHCB...C/EXCB...C/E
SANA
NBSB
DLR-design
B
D
d
a
r1s
rs
r1s
rs
α
B...C/E.2RSD
B
D
d
a
rs
r1s
rs
rs
α
Contact angleα = 15°/25°
A...C/E installation dimension
ra
raDada
rb
raDada
installation dimension
Contact angleα = 15°/25°
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) DLR-dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin r1s min dah12 DaH12 ramax rb max NB NA SB SA L M S L M S dyn C stat Co grease oil bearing kg
110 110 150 20 27 1,10 1,00 117,0 143,0 0,6 0,6 1,8 4,0 2,6 12,0 162 580 1235 84,4 142,0 197,5 52,7 41,3 10 000 17 000 HCB71922C.T.P4S.UL 0,721
110 150 20 40 1,10 1,00 117,0 143,0 0,6 0,6 1,8 4,0 2,6 12,0 203 860 1905 192,0 320,0 435,0 49,6 38,5 9 000 15 000 HCB71922E.T.P4S.UL 0,721
110 150 20 27 1,10 1,00 117,0 143,0 0,6 0,6 1,8 4,0 2,6 12,0 162 580 1235 84,4 142,0 197,5 84,4 41,3 13 000 20 000 XCB71922C.T.P4S.UL 0,721
110 150 20 40 1,10 1,00 117,0 143,0 0,6 0,6 1,8 4,0 2,6 12,0 203 860 1905 192,0 320,0 435,0 79,3 38,5 11 000 18 000 XCB71922E.T.P4S.UL 0,721
110 170 28 33 2,00 1,10 121,0 159,0 2,0 1,0 650 2070 4235 118,8 204,0 293,0 101,1 103,1 7 500 B7022C.2RSD.T.P4S.UL 1,94
110 170 28 47 2,00 1,10 121,0 159,0 2,0 1,0 975 3260 6760 284,0 445,0 600,0 95,3 95,8 6 700 B7022E.2RSD.T.P4S.UL 1,94
110 170 28 33 2,00 1,10 121,0 159,0 2,0 1,0 2,0 6,0 2,6 16,2 650 2070 4235 118,8 204,0 293,0 101,1 103,1 7 500 12 000 B7022C.T.P4S.UL 1,94
110 170 28 47 2,00 1,10 121,0 159,0 2,0 1,0 2,0 6,0 2,6 16,2 975 3260 6760 284,0 445,0 600,0 95,3 95,8 6 700 10 000 B7022E.T.P4S.UL 1,94
110 170 28 33 2,00 1,10 121,0 159,0 2,0 1,0 2,0 6,0 2,6 16,2 340 1145 2365 105,0 170,6 240,0 101,1 72,1 9 500 16 000 HCB7022C.T.P4S.UL 1,61
110 170 28 47 2,00 1,10 121,0 159,0 2,0 1,0 2,0 6,0 2,6 16,2 480 1740 3700 250,0 395,3 527,8 95,3 67,0 8 000 13 000 HCB7022E.T.P4S.UL 1,61
110 170 28 33 2,00 1,10 121,0 159,0 2,0 1,0 2,0 6,0 2,6 16,2 340 1145 2365 105,0 170,6 240,0 161,8 72,1 12 000 19 000 XCB7022C.T.P4S.UL 1,61
110 170 28 47 2,00 1,10 121,0 159,0 2,0 1,0 2,0 6,0 2,6 16,2 480 1740 3700 250,0 395,3 527,8 152,5 67,0 10 000 17 000 XCB7022E.T.P4S.UL 1,61
110 200 38 40 2,10 2,10 126,5 183,5 2,1 2,1 2,0 6,5 2,6 22,6 1000 3140 6380 131,0 222,2 322,0 150,3 142,1 6 700 10 000 B7222C.T.P4S.UL 4,59
110 200 38 55 2,10 2,10 126,5 183,5 2,1 2,1 2,0 6,5 2,6 22,6 1525 4940 10140 310,0 486,8 655,0 142,5 135,5 6 000 9 000 B7222E.T.P4S.UL 4,59
110 200 38 40 2,10 2,10 126,5 183,5 2,1 2,1 2,0 6,5 2,6 22,6 535 1740 3560 115,6 188,2 263,0 150,3 99,5 8 500 14 000 HCB7222C.T.P4S.UL 3,96
110 200 38 55 2,10 2,10 126,5 183,5 2,1 2,1 2,0 6,5 2,6 22,6 790 2705 5650 277,3 433,9 579,0 142,3 94,8 7 000 11 000 HCB7222E.T.P4S.UL 3,96
120 120 165 22 30 1,10 1,00 128,0 157,0 0,6 0,6 410 1345 2770 108,5 185,5 267,5 65,1 73,4 7 000 B71924C.2RSD.T.P4S.UL 1,16
120 165 22 44 1,10 1,00 128,0 157,0 0,6 0,6 590 2090 4390 256,0 411,5 557,0 61,2 68,4 6 700 B71924E.2RSD:T.P4S.UL 1,16
120 165 22 30 1,10 1,00 128,0 157,0 0,6 0,6 410 1345 2770 108,5 185,5 267,5 65,1 73,4 7 000 11 000 B71924C.T.P4S.UL 1,16
120 165 22 44 1,10 1,00 128,0 157,0 0,6 0,6 590 2090 4390 256,0 411,5 557,0 61,2 68,4 6 700 10 000 B71924E.T.P4S.UL 1,16
120 165 22 30 1,10 1,00 128,0 157,0 0,6 0,6 210 740 1570 94,6 159,2 222,2 65,1 51,4 9 000 15 000 HCB71924C.T.P4S.UL 0,976
120 165 22 44 1,10 1,00 128,0 157,0 0,6 0,6 276 1110 2420 221,6 365,9 492,0 61,2 47,9 8 000 13 000 HCB71924E.T.P4S.UL 0,976
120 165 22 30 1,10 1,00 128,0 157,0 0,6 0,6 210 740 1570 94,6 159,2 222,2 104,2 51,4 12 000 19 000 XCB71924C.T.P4S.UL 0,976
120 165 22 44 1,10 1,00 128,0 157,0 0,6 0,6 276 1110 2420 221,6 365,9 492,0 97,9 47,9 10 000 17 000 XCB71924E.T.P4S.UL 0,976
120 180 28 34 2,00 1,10 131,0 169,0 2,0 1,0 660 2110 4310 124,0 209,5 302,0 102,8 107,1 6 700 B7024C.2RSD.T.P4S.UL 2,07
120 180 28 49 2,00 1,10 131,0 169,0 2,0 1,0 990 3320 6880 289,6 460,0 622,0 96,8 99,6 6 300 B7024E.2RSD.T.P4S.UL 2,07
120 180 28 34 2,00 1,10 131,0 169,0 2,0 1,0 2,0 6,0 2,6 16,2 660 2110 4310 124,0 209,5 302,0 102,8 107,1 6 700 10 000 B7024C.T.P4S.UL 2,07
120 180 28 49 2,00 1,10 131,0 169,0 2,0 1,0 2,0 6,0 2,6 16,2 990 3320 6880 289,6 460,0 622,0 96,8 99,6 6 300 9 500 B7024E.T.P4S.UL 2,07
120 180 28 34 2,00 1,10 131,0 169,0 2,0 1,0 2,0 6,0 2,6 16,2 350 1180 2440 106,5 178,0 250,0 102,8 75,0 8 500 14 000 HCB7024C.T.P4S.UL 1,72
120 180 28 49 2,00 1,10 131,0 169,0 2,0 1,0 2,0 6,0 2,6 16,2 490 1780 3795 258,4 410,8 550,0 96,8 69,7 7 500 12 000 HCB7024E.T.P4S.UL 1,72
120 180 28 34 2,00 1,10 131,0 169,0 2,0 1,0 2,0 6,0 2,6 16,2 350 1180 2440 106,5 178,0 250,0 164,5 75,0 11 000 18 000 XCB7024C.T.P4S.UL 1,72
120 180 28 49 2,00 1,10 131,0 169,0 2,0 1,0 2,0 6,0 2,6 16,2 490 1780 3795 258,4 410,8 550,0 154,9 69,7 9 500 16 000 XCB7024E.T.P4S.UL 1,72
SLF-High-precision bearings | Page 50
B
D
d
a
rs
rs
r1s
rs
α
Contact angleα = 15°/25°
B...C/EHCB...C/EXCB...C/E
SANA
NBSB
DLR-design
B
D
d
a
r1s
rs
r1s
rs
α
B...C/E.2RSD
B
D
d
a
rs
r1s
rs
rs
α
Contact angleα = 15°/25°
A...C/E installation dimension
ra
raDada
rb
raDada
installation dimension
Contact angleα = 15°/25°
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) DLR-dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin r1s min dah12 DaH12 ramax rb max NB NA SB SA L M S L M S dyn C stat Co grease oil bearing kg
120 120 215 40 43 2,10 2,10 140,0 195,0 2,1 2,1 1270 3960 8040 139,6 234,0 335,7 189,4 183,7 6 000 9 000 B7224C.T.P4S.UL 5,29
120 215 40 59 2,10 2,10 140,0 195,0 2,1 2,1 2000 6425 13100 334,0 520,0 700,0 180,1 175,6 5 300 8 000 B7224E.T.P4S.UL 5,29
120 215 40 43 2,10 2,10 140,0 195,0 2,1 2,1 685 2190 4485 123,5 200,0 275,8 189,4 129,0 7 500 12 000 HCB7224C.T.P4S.UL 4,21
120 215 40 59 2,10 2,10 140,0 195,0 2,1 2,1 1050 3500 7290 300,5 466,0 620,0 180,1 122,9 6 300 9 500 HCB7224E.T.P4S.UL 4,21
130 130 180 24 33 1,50 1,10 139,0 171,0 0,6 0,6 490 1600 3290 116,5 200,0 287,0 78,2 87,7 7 000 B71926C.2RSD.T.P4S.UL 1,52
130 180 24 48 1,50 1,10 139,0 171,0 0,6 0,6 712 2480 5190 274,6 440,0 593,6 73,5 81,7 6 700 B71926E.2RSD.T.P4S.UL 1,52
130 180 24 33 1,50 1,10 139,0 171,0 0,6 0,6 490 1600 3290 116,5 200,0 287,0 78,2 87,7 7 000 10 000 B71926C.T.P4S.UL 1,52
130 180 24 48 1,50 1,10 139,0 171,0 0,6 0,6 712 2480 5190 274,6 440,0 593,6 73,5 81,7 6 700 9 000 B71926E.T.P4S.UL 1,52
130 180 24 33 1,50 1,10 139,0 171,0 0,6 0,6 256 888 1858 101,9 170,5 235,8 78,2 61,4 8 500 14 000 HCB71926C.T.P4S.UL 1,28
130 180 24 48 1,50 1,10 139,0 171,0 0,6 0,6 350 1355 2925 241,5 395,0 529,0 73,5 57,2 7 000 11 000 HCB71926E.T.P4S.UL 1,28
130 180 24 33 1,50 1,10 139,0 171,0 0,6 0,6 256 888 1858 101,9 170,5 235,8 125,1 61,4 11 000 18 000 XCB71926C.T.P4S.UL 1,28
130 180 24 48 1,50 1,10 139,0 171,0 0,6 0,6 350 1355 2925 241,5 395,0 529,0 117,6 57,2 9 500 16 000 XCB71926E.T.P4S.UL 1,28
130 200 33 39 2,00 1,10 142,0 189,0 2,0 1,0 860 2720 5550 136,5 232,4 333,0 131,8 141,1 6 700 B7026C.2RSD.T.P4S.UL 3,15
130 200 33 55 2,00 1,10 142,0 189,0 2,0 1,0 1320 4370 8960 329,0 517,2 692,2 124,3 132,8 6 000 B7026E.2RSD.T.P4S.UL 3,15
130 200 33 39 2,00 1,10 142,0 189,0 2,0 1,0 2,0 6,0 2,6 19,5 860 2720 5550 136,5 232,4 333,0 131,8 141,1 6 700 9 000 B7026C.T.P4S.UL 3,15
130 200 33 55 2,00 1,10 142,0 189,0 2,0 1,0 2,0 6,0 2,6 19,5 1320 4370 8960 329,0 517,2 692,2 124,3 132,8 6 000 8 500 B7026E.T.P4S.UL 3,15
130 200 33 39 2,00 1,10 142,0 189,0 2,0 1,0 2,0 6,0 2,6 19,5 460 1520 3140 122,2 198,8 277,0 131,8 98,8 7 500 12 000 HCB7026C.T.P4S.UL 2,62
130 200 33 55 2,00 1,10 142,0 189,0 2,0 1,0 2,0 6,0 2,6 19,5 675 2375 5020 290,5 460,5 615,0 124,3 93,0 6 700 10 000 HCB7026E.T.P4S.UL 2,62
130 200 33 39 2,00 1,10 142,0 189,0 2,0 1,0 2,0 6,0 2,6 19,5 460 1520 3140 122,2 198,8 277,0 210,8 98,8 10 000 17 000 XCB7026C.T.P4S.UL 2,62
130 200 33 55 2,00 1,10 142,0 189,0 2,0 1,0 2,0 6,0 2,6 19,5 675 2375 5020 290,5 460,5 615,0 198,9 93,0 8 500 14 000 XCB7026E.T.P4S.UL 2,62
130 230 40 44 3,00 3,00 148,0 211,5 2,5 2,5 2,0 9,0 2,6 24,5 1310 4100 8350 148,5 245,0 353,2 197,0 201,0 5 600 8 500 B7226C.T.P4S.UL 6,10
130 230 40 62 3,00 3,00 148,0 211,5 2,5 2,5 2,0 9,0 2,6 24,5 2080 6675 13600 350,5 555,0 742,0 186,7 191,9 5 000 7 500 B7226E.T.P4S.UL 6,10
130 230 40 44 3,00 3,00 148,0 211,5 2,5 2,5 2,0 9,0 2,6 24,5 720 2300 4700 129,5 212,0 292,5 197,0 140,7 7 000 11 000 HCB7226C.T.P4S.UL 5,00
130 230 40 62 3,00 3,00 148,0 211,5 2,5 2,5 2,0 9,0 2,6 24,5 1080 3650 7520 316,0 496,0 654,0 186,7 134,3 6 000 9 000 HCB7226E.T.P4S.UL 5,00
140 140 190 24 34 1,50 1,10 149,0 181,0 0,6 0,6 505 1665 3415 126,0 212,0 302,7 80,9 94,1 6 000 B71928C.2RSD.T.P4S.UL 1,63
140 190 24 50 1,50 1,10 149,0 181,0 0,6 0,6 740 2580 5400 295,0 470,0 632,0 76,0 87,7 5 600 B71928E.2RSD.T.P4S.UL 1,63
140 190 24 34 1,50 1,10 149,0 181,0 0,6 0,6 505 1665 3415 126,0 212,0 302,7 80,9 94,1 6 000 9 000 B71928C.T.P4S.UL 1,63
140 190 24 50 1,50 1,10 149,0 181,0 0,6 0,6 740 2580 5400 295,0 470,0 632,0 76,0 87,7 5 600 8 500 B71928E.T.P4S.UL 1,63
140 190 24 34 1,50 1,10 149,0 181,0 0,6 0,6 265 920 1930 109,4 183,0 252,0 80,9 65,8 7 500 12 000 HCB71928C.T.P4S.UL 1,37
140 190 24 50 1,50 1,10 149,0 181,0 0,6 0,6 355 1390 3000 258,0 416,5 562,2 76,0 61,4 6 700 10 000 HCB71928E.T.P4S.UL 1,37
140 190 24 34 1,50 1,10 149,0 181,0 0,6 0,6 265 920 1930 109,4 183,0 252,0 129,5 65,8 10 000 17 000 XCB71928C.T.P4S.UL 1,37
140 190 24 50 1,50 1,10 149,0 181,0 0,6 0,6 355 1390 3000 258,0 416,5 562,2 121,7 61,4 8 500 14 000 XCB71928E.T.P4S.UL 1,37
SLF-High-precision bearings | Page 51
B
D
d
a
rs
rs
r1s
rs
α
Contact angleα = 15°/25°
B...C/EHCB...C/EXCB...C/E
SANA
NBSB
DLR-design
B
D
d
a
r1s
rs
r1s
rs
α
B...C/E.2RSD
B
D
d
a
rs
r1s
rs
rs
α
Contact angleα = 15°/25°
A...C/E installation dimension
ra
raDada
rb
raDada
installation dimension
Contact angleα = 15°/25°
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) DLR-dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin r1s min dah12 DaH12 ramax rb max NB NA SB SA L M S L M S dyn C stat Co grease oil bearing kg
140 140 210 33 40 2,00 1,10 152,0 199,0 2,0 1,0 870 2775 5660 141,5 240,0 340,0 134,4 148,7 6 300 B7028C.2RSD.T.P4S.UL 3,34
140 210 33 57 2,00 1,10 152,0 199,0 2,0 1,0 1345 4445 9460 340,3 537,0 720,0 126,7 138,3 5 600 B7028E.2RSD.T.P4S.UL 3,34
140 210 33 40 2,00 1,10 152,0 199,0 2,0 1,0 870 2775 5660 141,5 240,0 340,0 134,4 148,7 6 300 8 500 B7028C.T.P4S.UL 3,34
140 210 33 57 2,00 1,10 152,0 199,0 2,0 1,0 1345 4445 9460 340,3 537,0 720,0 126,7 138,3 5 600 7 500 B7028E.T.P4S.UL 3,34
140 210 33 40 2,00 1,10 152,0 199,0 2,0 1,0 480 1580 3270 125,8 205,5 290,0 134,4 104,1 7 000 11 000 HCB7028C.T.P4S.UL 2,78
140 210 33 57 2,00 1,10 152,0 199,0 2,0 1,0 685 2435 5130 303,0 480,5 638,5 126,7 96,8 6 300 9 500 HCB7028E.T.P4S.UL 2,78
140 210 33 40 2,00 1,10 152,0 199,0 2,0 1,0 480 1580 3270 125,8 205,5 290,0 215,0 104,1 9 500 16 000 XCB7028C.T.P4S.UL 2,78
140 210 33 57 2,00 1,10 152,0 199,0 2,0 1,0 685 2435 5130 303,0 480,5 638,5 202,7 96,8 8 000 13 000 XCB7028E.T.P4S.UL 2,78
140 250 42 47 3,00 3,00 163,0 226,5 2,5 2,5 1360 4260 8640 154,8 260,0 370,0 220,5 247,9 5 000 7 500 B7228C.T.P4S.UL 7,87
140 250 42 66 3,00 3,00 163,0 226,5 2,5 2,5 2150 6930 14100 377,0 580,0 780,0 208,8 236,3 4 500 6 700 B7228E.T.P4S.UL 7,87
140 250 42 47 3,00 3,00 163,0 226,5 2,5 2,5 750 2400 4900 136,6 222,3 306,8 220,5 173,5 6 300 9 500 HCB7228C.T.P4S.UL 6,67
140 250 42 66 3,00 3,00 163,0 226,5 2,5 2,5 1130 3800 7910 340,0 522,6 690,0 208,8 165,4 5 300 8 000 HCB7228E.T.P4S.UL 6,67
150 150 210 28 38 2,00 1,10 160,0 199,0 1,0 1,0 710 2290 4680 140,5 238,0 342,0 110,3 124,5 5 600 B71930C.2RSD.T.P4S.UL 2,49
150 210 28 56 2,00 1,10 160,0 199,0 1,0 1,0 1050 3540 7370 333,0 527,5 708,0 103,6 115,9 5 000 B71930E.2RSD.T.P4S.UL 2,49
150 210 28 38 2,00 1,10 160,0 199,0 1,0 1,0 710 2290 4680 140,5 238,0 342,0 110,3 124,5 5 600 8 500 B71930C.T.P4S.UL 2,49
150 210 28 56 2,00 1,10 160,0 199,0 1,0 1,0 1050 3540 7370 333,0 527,5 708,0 103,6 115,9 5 000 7 500 B71930E.T.P4S.UL 2,49
150 210 28 38 2,00 1,10 160,0 199,0 1,0 1,0 375 1260 2625 124,6 204,0 282,3 110,3 87,1 7 000 11 000 HCB71930C.T.P4S.UL 2,07
150 210 28 56 2,00 1,10 160,0 199,0 1,0 1,0 520 1925 4115 295,0 471,4 630,0 103,6 81,1 6 000 9 000 HCB71930E.T.P4S.UL 2,07
150 210 28 38 2,00 1,10 160,0 199,0 1,0 1,0 375 1260 2625 124,6 204,0 282,3 176,5 87,1 9 000 15 000 XCB71930C.T.P4S.UL 2,07
150 210 28 56 2,00 1,10 160,0 199,0 1,0 1,0 520 1925 4115 295,0 471,4 630,0 165,8 81,1 8 000 13 000 XCB71930E.T.P4S.UL 2,07
150 225 35 43 2,10 1,50 163,0 213,0 2,1 1,0 1100 3500 7150 156,0 265,3 378,4 167,5 183,5 5 300 8 000 B7030C.T.P4S.UL 3,99
150 225 35 61 2,10 1,50 163,0 213,0 2,1 1,0 1700 5555 11420 373,2 584,2 785,0 158,0 173,3 4 800 7 000 B7030E.T.P4S.UL 3,99
150 225 35 43 2,10 1,50 163,0 213,0 2,1 1,0 600 1960 4020 137,5 223,8 313,0 167,5 128,5 6 700 10 000 HCB7030C.T.P4S.UL 3,20
150 225 35 61 2,10 1,50 163,0 213,0 2,1 1,0 900 3100 6500 335,5 527,5 700,0 158,0 121,3 5 600 8 500 HCB7030E.T.P4S.UL 3,20
150 225 35 43 2,10 1,50 163,0 213,0 2,1 1,0 600 1960 4020 137,5 223,8 313,0 268,0 128,5 8 500 14 000 XCB7030C.T.P4S.UL 3,20
150 225 35 61 2,10 1,50 163,0 213,0 2,1 1,0 900 3100 6500 335,5 527,5 700,0 252,8 121,3 7 500 12 000 XCB7030E.T.P4S.UL 3,20
150 270 45 51 3,00 3,00 178,0 241,5 2,5 2,5 1400 4410 8950 165,5 274,0 388,5 226,9 268,2 4 500 6 700 B7230C.T.P4S.UL 10,1
150 270 45 71 3,00 3,00 178,0 241,5 2,5 2,5 2190 7025 14400 393,3 605,5 815,0 214,5 255,3 4 000 6 000 B7230E.T.P4S.UL 10,1
150 270 45 51 3,00 3,00 178,0 241,5 2,5 2,5 770 2470 5050 143,3 235,5 322,0 226,9 187,7 5 600 8 500 HCB7230C.T.P4S.UL 8,70
150 270 45 71 3,00 3,00 178,0 241,5 2,5 2,5 1140 3860 8025 353,0 548,0 722,5 214,5 178,7 5 000 7 500 HCB7230E.T.P4S.UL 8,70
160 160 220 28 40 2,00 1,10 170,0 209,0 1,0 1,0 730 2340 4790 145,5 245,3 353,0 111,5 128,6 5 000 7 500 B71932C.T.P4S.UL 2,62
160 220 28 58 2,00 1,10 170,0 209,0 1,0 1,0 1050 3600 7500 344,4 544,3 730,0 104,8 119,8 4 800 7 000 B71932E.T.P4S.UL 2,62
SLF-High-precision bearings | Page 52
B
D
d
a
rs
rs
r1s
rs
α
Contact angleα = 15°/25°
B...C/EHCB...C/EXCB...C/E
SANA
NBSB
DLR-design
B
D
d
a
r1s
rs
r1s
rs
α
B...C/E.2RSD
B
D
d
a
rs
r1s
rs
rs
α
Contact angleα = 15°/25°
A...C/E installation dimension
ra
raDada
rb
raDada
installation dimension
Contact angleα = 15°/25°
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) DLR-dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin r1s min dah12 DaH12 ramax rb max NB NA SB SA L M S L M S dyn C stat Co grease oil bearing kg
160 160 220 28 40 2,00 1,10 170,0 209,0 1,0 1,0 380 1285 2670 126,8 209,4 292,0 111,5 90,0 6 700 10 000 HCB71932C.T.P4S.UL 2,19
160 220 28 58 2,00 1,10 170,0 209,0 1,0 1,0 530 1965 4200 305,1 488,0 650,0 104,8 83,9 5 600 8 500 HCB71932E.T.P4S.UL 2,19
160 220 28 40 2,00 1,10 170,0 209,0 1,0 1,0 380 1285 2670 126,8 209,4 292,0 178,4 90,0 8 500 14 000 XCB71932C.T.P4S.UL 2,19
160 220 28 58 2,00 1,10 170,0 209,0 1,0 1,0 530 1965 4200 305,1 488,0 650,0 167,7 83,9 7 500 12 000 XCB71932E.T.P4S.UL 2,19
160 240 38 46 2,10 1,50 174,0 228,0 2,0 1,0 1150 3640 7400 163,3 275,0 395,0 170,6 193,9 4 800 7 000 B7032C.T.P4S.UL 5,01
160 240 38 66 2,10 1,50 174,0 228,0 2,0 1,0 1720 5640 11600 386,5 605,0 813,3 160,8 180,3 4 300 6 300 B7032E.T.P4S.UL 5,01
160 240 38 46 2,10 1,50 174,0 228,0 2,0 1,0 625 2030 4180 145,1 233,3 324,4 170,6 135,7 6 000 9 000 HCB7032C.T.P4S.UL 4,20
160 240 38 66 2,10 1,50 174,0 228,0 2,0 1,0 910 3160 6620 350,0 549,1 726,5 160,8 126,2 5 300 8 000 HCB7032E.T.P4S.UL 4,20
160 240 38 46 2,10 1,50 174,0 228,0 2,0 1,0 625 2030 4180 145,1 233,3 324,4 273,0 135,7 8 000 13 000 XCB7032C.T.P4S.UL 4,20
160 240 38 66 2,10 1,50 174,0 228,0 2,0 1,0 910 3160 6620 350,0 549,1 726,5 257,3 126,2 6 700 10 000 XCB7032E.T.P4S.UL 4,20
160 290 48 54 3,00 3,00 191,0 259,0 2,5 2,5 1500 4730 9600 182,0 300,0 425,0 241,3 304,5 4 300 6 300 B7232C.T.P4S.UL 12,9
160 290 48 76 3,00 3,00 191,0 259,0 2,5 2,5 2340 7530 15450 432,0 666,6 895,0 227,8 289,5 3 800 5 600 B7232E.T.P4S.UL 12,9
160 290 48 54 3,00 3,00 191,0 259,0 2,5 2,5 830 2660 5480 160,1 258,0 356,0 241,3 213,1 5 300 8 000 HCB7232C.T.P4S.UL 11,5
160 290 48 76 3,00 3,00 191,0 259,0 2,5 2,5 1230 4170 8670 390,0 606,0 798,0 227,8 202,6 4 500 6 700 HCB7232E.T.P4S.UL 11,5
170 170 230 28 41 2,00 1,10 180,0 219,0 1,0 1,0 750 2400 4950 152,0 260,6 370,0 115,5 137,7 4 800 7 000 B71934C.T.P4S.UL 2,78
170 230 28 61 2,00 1,10 180,0 219,0 1,0 1,0 1100 3780 7870 365,0 580,0 779,0 108,5 128,3 4 300 6 300 B71934E.T.P4S.UL 2,78
170 230 28 41 2,00 1,10 180,0 219,0 1,0 1,0 390 1330 2770 135,1 222,0 309,0 115,5 96,4 6 000 9 000 HCB71934C.T.P4S.UL 2,31
170 230 28 61 2,00 1,10 180,0 219,0 1,0 1,0 540 2030 4350 323,3 518,0 690,0 108,5 89,8 5 300 8 000 HCB71934E.T.P4S.UL 2,31
170 260 42 50 2,10 2,10 185,0 246,0 2,0 1,0 1460 4560 9250 174,4 285,0 408,0 216,7 252,3 4 500 6 700 B7034C.T.P4S.UL 6,51
170 260 42 71 2,10 2,10 185,0 246,0 2,0 1,0 2260 7280 14900 410,0 638,0 855,0 204,7 240,0 4 000 6 000 B7034E.T.P4S.UL 6,51
170 310 52 58 4,00 4,00 205,0 275,0 3,0 3,0 1880 5840 11825 190,0 314,0 445,0 276,4 349,0 3 800 5 600 B7234C.T.P4S.UL 15,6
170 310 52 82 4,00 4,00 205,0 275,0 3,0 3,0 2880 9185 18735 455,0 702,0 936,0 261,4 332,4 3 600 5 300 B7234E.T.P4S.UL 15,6
180 180 250 33 46 2,00 1,10 192,0 238,0 1,0 1,0 962 3080 6300 168,8 282,0 401,0 147,4 179,2 4 500 6 700 B71936C.T.P4S.UL 4,13
180 250 33 67 2,00 1,10 192,0 238,0 1,0 1,0 1470 4915 10160 402,2 634,0 850,0 138,6 166,9 4 000 6 000 B71936E.T.P4S.UL 4,13
180 250 33 46 2,00 1,10 192,0 238,0 1,0 1,0 515 1700 3550 147,8 240,4 335,0 147,4 125,4 5 600 8 500 HCB71936C.T.P4S.UL 3,44
180 250 33 67 2,00 1,10 192,0 238,0 1,0 1,0 735 2640 5600 355,5 567,0 755,0 138,6 116,8 4 800 7 000 HCB71936E.T.P4S.UL 3,44
180 280 46 54 2,10 2,10 196,0 264,0 2,0 1,0 1510 4740 9600 179,9 300,0 425,0 221,8 270,3 4 000 6 000 B7036C.T.P4S.UL 8,77
180 280 46 77 2,10 2,10 196,0 264,0 2,0 1,0 2340 7530 15450 433,0 670,0 895,0 209,3 256,9 3 800 5 600 B7036E.T.P4S.UL 8,77
180 320 52 60 4,00 4,00 213,5 286,5 3,0 3,0 1900 5950 12000 200,0 329,0 465,0 285,1 373,1 3 800 5 600 B7236C.T.P4S.UL 16,3
180 320 52 84 4,00 4,00 213,5 286,5 3,0 3,0 2980 9500 19400 475,0 735,0 985,0 269,4 355,2 3 400 5 000 B7236E.T.P4S.UL 16,3
190 190 260 33 47 2,00 1,10 202,0 247,0 1,0 1,0 895 3000 6200 166,6 282,0 408,0 149,3 185,1 4 300 6 300 B71938C.T.P4S.UL 4,31
190 260 33 69 2,00 1,10 202,0 247,0 1,0 1,0 1260 4575 9700 388,0 630,0 850,0 140,3 172,4 3 800 5 600 B71938E.T.P4S.UL 4,31
SLF-High-precision bearings | Page 53
B
D
d
a
rs
rs
r1s
rs
α
Contact angleα = 15°/25°
B...C/EHCB...C/EXCB...C/E
SANA
NBSB
DLR-design
B
D
d
a
r1s
rs
r1s
rs
α
B...C/E.2RSD
B
D
d
a
rs
r1s
rs
rs
α
Contact angleα = 15°/25°
A...C/E installation dimension
ra
raDada
rb
raDada
installation dimension
Contact angleα = 15°/25°
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) DLR-dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin r1s min dah12 DaH12 ramax rb max NB NA SB SA L M S L M S dyn C stat Co grease oil bearing kg
190 190 260 33 47 2,00 1,10 202,0 247,0 1,0 1,0 450 1620 3440 142,5 242,0 336,0 149,3 129,5 5 300 8 000 HCB71938C.T.P4S.UL 3,59
190 260 33 69 2,00 1,10 202,0 247,0 1,0 1,0 565 2400 5310 333,3 560,0 757,0 140,3 120,7 4 500 6 700 HCB71938E.T.P4S.UL 3,59
190 290 46 55 2,10 2,10 206,0 274,0 2,0 1,0 1450 4670 9580 181,0 303,0 440,0 227,5 287,0 3 800 5 600 B7038C.T.P4S.UL 9,18
190 290 46 79 2,10 2,10 206,0 274,0 2,0 1,0 2150 7285 15230 430,0 680,0 913,0 214,6 270,8 3 600 5 300 B7038E.T.P4S.UL 9,18
190 340 55 63 4,00 4,00 223,5 306,5 3,0 3,0 1860 5960 12160 202,0 335,0 478,0 292,4 399,1 3 400 5 000 B7238C.T.P4S.UL 20,0
190 340 55 89 4,00 4,00 223,5 306,5 3,0 3,0 2815 9425 19525 485,0 760,0 1015,0 275,0 371,1 3 200 4 800 B7238E.T.P4S.UL 20,0
200 200 280 38 51 2,10 1,50 214,0 266,0 1,0 1,0 1135 3735 7700 180,0 305,0 435,0 183,4 225,3 3 800 5 600 B71940C.T.P4S.UL 6,03
200 280 38 75 2,10 1,50 214,0 266,0 1,0 1,0 1645 5800 12200 425,0 680,0 915,0 172,5 209,8 3 600 5 300 B71940E.T.P4S.UL 6,03
200 280 38 51 2,10 1,50 214,0 266,0 1,0 1,0 580 2030 4270 155,5 260,0 360,0 183,4 157,7 5 000 7 500 HCB71940C.T.P4S.UL 5,04
200 280 38 75 2,10 1,50 214,0 266,0 1,0 1,0 760 3060 6660 365,0 602,0 810,0 172,5 146,9 4 300 6 300 HCB71940E.T.P4S.UL 5,04
200 310 51 60 2,10 2,10 217,0 293,0 2,0 1,0 1800 5770 11780 194,0 322,0 458,0 284,1 374,9 3 600 5 300 B7040C.T.P4S.UL 11,6
200 310 51 85 2,10 2,10 217,0 293,0 2,0 1,0 2730 9120 18890 463,0 725,0 970,0 268,4 354,3 3 200 4 800 B7040E.T.P4S.UL 11,6
200 360 58 67 4,00 4,00 238,5 321,5 3,0 3,0 1915 6140 12500 210,5 350,0 498,0 299,1 417,6 3 200 4 800 B7240C.T.P4S.UL 24,1
200 360 58 94 4,00 4,00 238,5 321,5 3,0 3,0 2900 9725 20160 506,0 795,0 1060,0 282,1 388,1 3 000 4 500 B7240E.T.P4S.UL 24,1
220 220 300 38 54 2,10 1,50 234,0 286,0 1,0 1,0 1190 3940 8140 197,0 332,0 475,0 193,6 250,0 3 600 5 300 B71944C.T.P4S.UL 6,57
220 300 38 80 2,10 1,50 234,0 286,0 1,0 1,0 1715 6085 12865 463,0 742,0 998,0 182,0 232,9 3 200 4 800 B71944E.T.P4S.UL 6,57
220 300 38 54 2,10 1,50 234,0 286,0 1,0 1,0 620 2180 4600 172,2 285,0 398,0 193,6 175,0 4 500 6 700 HCB71944C.T.P4S.UL 5,46
220 300 38 80 2,10 1,50 234,0 286,0 1,0 1,0 800 3260 7120 400,0 660,0 890,0 182,0 163,0 3 800 5 600 HCB71944E.T.P4S.UL 5,46
220 340 56 66 3,00 3,00 239,0 321,0 2,5 1,0 1915 6140 12540 213,0 352,0 500,0 299,1 417,6 3 200 4 800 B7044C.T.P4S.UL 15,7
220 340 56 93 3,00 3,00 239,0 321,0 2,5 1,0 2905 9730 20165 507,0 795,0 1063,0 282,1 388,1 3 000 4 500 B7044E.T.P4S.UL 15,7
220 400 65 74 4,00 4,00 264,0 356,0 3,0 3,0 2405 7620 15565 225,0 370,0 525,0 364,3 527,0 2 800 4 300 B7244C.T.P4S.UL 33,0
220 400 65 104 4,00 4,00 264,0 356,0 3,0 3,0 3670 12080 24980 543,0 844,0 1130,0 344,3 501,5 2 600 4 000 B7244E.T.P4S.UL 33,0
240 240 320 38 57 2,10 1,50 254,0 307,0 1,0 1,0 1230 4080 8430 208,0 350,0 500,0 202,8 267,9 3 200 4 800 B71948C.T.P4S.UL 7,08
240 320 38 84 2,10 1,50 254,0 307,0 1,0 1,0 1770 6300 13350 490,0 785,0 1060,0 190,6 249,6 3 000 4 500 B71948E.T.P4S.UL 7,08
240 320 38 57 2,10 1,50 254,0 307,0 1,0 1,0 630 2240 4730 179,8 300,0 420,0 202,8 187,5 4 000 6 000 HCB71948C.T.P4S.UL 5,89
240 320 38 84 2,10 1,50 254,0 307,0 1,0 1,0 795 3280 7200 420,0 695,0 930,0 190,6 174,7 3 600 5 300 HCB71948E.T.P4S.UL 5,89
240 360 56 68 3,00 3,00 260,0 341,0 2,5 1,0 1970 6330 12925 220,0 365,0 518,0 304,3 434,0 3 000 4 500 B7048C.T.P4S.UL 16,7
240 360 56 98 3,00 3,00 260,0 341,0 2,5 1,0 2930 9865 20450 520,0 820,0 1100,0 286,7 403,6 2 800 4 300 B7048E.T.P4S.UL 16,7
260 260 360 46 65 2,10 1,50 278,0 342,0 1,0 1,0 1630 5290 10875 222,2 372,3 529,0 254,9 365,9 3 000 4 500 B71952C.T.P4S.UL 12,1
260 360 46 95 2,10 1,50 278,0 342,0 1,0 1,0 2390 8250 17270 530,0 840,0 1130,0 239,7 340,8 2 600 4 000 B71952E.T.P4S.UL 12,1
280 280 380 46 67 2,10 1,50 298,0 362,0 1,0 1,0 1700 5560 11440 239,0 398,0 560,0 263,4 391,2 2 600 4 000 B71956C.T.P4S.UL 12,9
280 380 46 100 2,10 1,50 298,0 362,0 1,0 1,0 2460 8530 17850 560,0 890,0 1190,0 247,5 364,5 2 400 3 800 B71956E.T.P4S.UL 12,9
SLF-High-precision bearings | Page 54
B
D
d
a
rs
rs
r1s
rs
α
Contact angleα = 15°/25°
B...C/EHCB...C/EXCB...C/E
SANA
NBSB
DLR-design
B
D
d
a
r1s
rs
r1s
rs
α
B...C/E.2RSD
B
D
d
a
rs
r1s
rs
rs
α
Contact angleα = 15°/25°
A...C/E installation dimension
ra
raDada
rb
raDada
installation dimension
Contact angleα = 15°/25°
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) DLR-dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin r1s min dah12 DaH12 ramax rb max NB NA SB SA L M S L M S dyn C stat Co grease oil bearing kg
300 300 420 56 76 3,00 3,00 322,0 398,0 1,5 1,0 2100 6770 13860 250,0 414,0 585,0 326,7 504,3 2 400 3 800 B71960C.T.P4S.UL 20,4
300 420 56 112 3,00 3,00 322,0 398,0 1,5 1,0 3120 10570 21990 600,0 940,0 1250,0 307,1 469,6 2 200 3 600 B71960E.T.P4S.UL 20,4
320 320 440 56 79 3,00 3,00 342,0 418,0 1,5 1,0 2180 7020 14400 267,0 440,0 620,0 339,3 543,4 2 200 3 600 B71964C.T.P4S.UL 21,6
320 440 56 117 3,00 3,00 342,0 418,0 1,5 1,0 3240 11000 22900 640,0 1000,0 1335,0 318,9 506,2 2 000 3 400 B71964E.T.P4S.UL 21,6
340 340 460 56 82 3,00 3,00 362,0 438,0 1,5 1,0 2060 6880 14300 266,6 444,4 625,0 342,8 560,3 2 200 3 600 B71968C.T.P4S.UL 22,7
340 460 56 121 3,00 3,00 362,0 438,0 1,5 1,0 2920 10600 22500 633,0 1010,0 1350,0 322,0 522,1 1 900 3 200 B71968E.T.P4S.UL 22,7
360 360 480 56 84 3,00 3,00 382,0 458,0 1,5 1,0 2100 7040 14640 280,0 465,0 655,0 354,0 597,1 2 000 3 400 B71972C.T.P4S.UL 23,9
360 480 56 126 3,00 3,00 382,0 458,0 1,5 1,0 3030 11030 23400 670,0 1070,0 1440,0 332,5 556,6 1 800 3 000 B71972E.T.P4S.UL 23,9
B
D
d
a
rs
rs
rs
rs
α
Contact angleα = 15°/25°
HS...C/EHC...C/EXC...C/E installation dimension
ra
raDada
installation dimension
ra
raDa
dad
B
a
rs
rs
α
Contact angleα = 15°/25°
HS...C/E.2RSDHC...C/E.2RSD
D
rs
rs
SLF-High-precision bearings | Page 55
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin dah12 DaH12 ramax L M S L M S dyn C stat Co grease oil bearing kg
17 17 35 10 9 0,3 21,0 32,0 0,3 13 39 78 14,5 22,5 31,5 2,9 1,6 53 000 HS7003C.2RSD.T.P4S.UL 0,040
17 35 10 11 0,3 21,0 32,0 0,3 21 63 126 35,8 52,9 69,3 2,7 1,5 45 000 HS7003E.2RSD.T.P4S.UL 0,040
17 35 10 9 0,3 21,0 32,0 0,3 9 27 54 14,2 21,3 29,2 2,9 1,1 63 000 HC7003C.2RSD.T.P4S.UL 0,039
17 35 10 11 0,3 21,0 32,0 0,3 14 42 84 35,5 52,1 68,2 2,7 1,0 53 000 HC7003E.2RSD.T.P4S.UL 0,039
17 35 10 9 0,3 21,0 32,0 0,3 13 39 78 14,5 22,5 31,5 2,9 1,6 53 000 80 000 HS7003C.T.P4S.UL 0,040
17 35 10 11 0,3 21,0 32,0 0,3 21 63 126 35,8 52,9 69,3 2,7 1,5 45 000 67 000 HS7003E.T.P4S.UL 0,040
17 35 10 9 0,3 21,0 32,0 0,3 9 27 54 14,2 21,3 29,2 2,9 1,1 63 000 95 000 HC7003C.T.P4S.UL 0,039
17 35 10 11 0,3 21,0 32,0 0,3 14 42 84 35,5 52,1 68,2 2,7 1,0 53 000 80 000 HC7003E.T.P4S.UL 0,039
17 35 10 9 0,3 21,0 32,0 0,3 9 27 54 14,2 21,3 29,2 4,6 1,1 80 000 130 000 XC7003C.T.P4S.UL 0,039
17 35 10 11 0,3 21,0 32,0 0,3 14 42 84 35,5 52,1 68,2 4,3 1,0 70 000 100 000 XC7003E.T.P4S.UL 0,039
20 20 37 9 8 0,3 24,0 33,5 0,3 13 39 79 15,0 23,5 32,7 3,0 1,7 50 000 HS71904C.2RSD.T.P4S.UL 0,040
20 37 9 11 0,3 24,0 33,5 0,3 21 63 126 37,0 55,0 72,8 2,9 1,6 43 000 HS71904E.2RSD.T.P4S.UL 0,040
20 37 9 8 0,3 24,0 33,5 0,3 9 27 54 14,5 22,5 31,0 3,0 1,2 56 000 HC71904C.2RSD.T.P4S.UL 0,039
20 37 9 11 0,3 24,0 33,5 0,3 15 45 90 37,5 54,5 71,5 2,9 1,1 48 000 HC71904E.2RSD.T.P4S.UL 0,039
20 37 9 8 0,3 24,0 33,5 0,3 13 39 79 15,0 23,5 32,7 3,0 1,7 50 000 75 000 HS71904C.T.P4S.UL 0,040
20 37 9 11 0,3 24,0 33,5 0,3 21 63 126 37,0 55,0 72,8 2,9 1,6 43 000 63 000 HS71904E.T.P4S.UL 0,040
20 37 9 8 0,3 24,0 33,5 0,3 9 27 54 14,5 22,5 31,0 3,0 1,2 56 000 85 000 HC71904C.T.P4S.UL 0,039
20 37 9 11 0,3 24,0 33,5 0,3 15 45 90 37,5 54,5 71,5 2,9 1,1 48 000 70 000 HC71904E.T.P4S.UL 0,039
20 37 9 8 0,3 24,0 33,5 0,3 9 27 54 14,5 22,5 31,0 4,9 1,2 75 000 120 000 XC71904C.T.P4S.UL 0,039
20 37 9 11 0,3 24,0 33,5 0,3 15 45 90 37,5 54,5 71,5 4,6 1,1 63 000 95 000 XC71904E.T.P4S.UL 0,039
20 42 12 10 0,6 25,0 37,0 0,6 20 63 126 20,0 31,5 43,5 4,7 2,7 45 000 HS7004C.2RSD.T.P4S.UL 0,080
20 42 12 13 0,6 25,0 37,0 0,6 34 102 204 49,3 73,5 96,0 4,4 2,5 38 000 HS7004E.2RSD.T.P4S.UL 0,080
20 42 12 10 0,6 25,0 37,0 0,6 15 45 90 19,5 30,0 41,0 4,7 1,9 53 000 HC7004C.2RSD.T.P4S.UL 0,077
20 42 12 13 0,6 25,0 37,0 0,6 23 69 138 49,0 72,5 94,0 4,4 1,8 45 000 HC7004E.2RSD.T.P4S.UL 0,077
20 42 12 10 0,6 25,0 37,0 0,6 20 63 126 20,0 31,5 43,5 4,7 2,7 45 000 67 000 HS7004C.T.P4S.UL 0,080
20 42 12 13 0,6 25,0 37,0 0,6 34 102 204 49,3 73,5 96,0 4,4 2,5 38 000 56 000 HS7004E.T.P4S.UL 0,080
20 42 12 10 0,6 25,0 37,0 0,6 15 45 90 19,5 30,0 41,0 4,7 1,9 53 000 80 000 HC7004C.T.P4S.UL 0,077
20 42 12 13 0,6 25,0 37,0 0,6 23 69 138 49,0 72,5 94,0 4,4 1,8 45 000 67 000 HC7004E.T.P4S.UL 0,077
20 42 12 10 0,6 25,0 37,0 0,6 15 45 90 19,5 30,0 41,0 7,5 1,9 67 000 100 000 XC7004C.T.P4S.UL 0,077
20 42 12 13 0,6 25,0 37,0 0,6 23 69 138 49,0 72,5 94,0 7,1 1,8 56 000 85 000 XC7004E.T.P4S.UL 0,077
12.2. High-speed spindle bearing
B
D
d
a
rs
rs
rs
rs
α
Contact angleα = 15°/25°
HS...C/EHC...C/EXC...C/E installation dimension
ra
raDada
installation dimension
ra
raDa
dad
B
a
rs
rs
α
Contact angleα = 15°/25°
HS...C/E.2RSDHC...C/E.2RSD
D
rs
rs
SLF-High-precision bearings | Page 56
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin dah12 DaH12 ramax L M S L M S dyn C stat Co grease oil bearing kg
25 25 42 9 9 0,3 29,0 38,5 0,3 14 42 84 17,0 26,5 36,5 3,3 2,1 43 000 HS71905C.2RSD.T.P4S.UL 0,050
25 42 9 12 0,3 29,0 38,5 0,3 23 69 138 42,0 63,0 82,5 3,1 2,0 36 000 HS71905E.2RSD.T.P4S.UL 0,050
25 42 9 9 0,3 29,0 38,5 0,3 10 30 60 16,5 25,5 34,5 3,3 1,5 48 000 HC71905C.2RSD.T.P4S.UL 0,048
25 42 9 12 0,3 29,0 38,5 0,3 16 48 96 42,5 62,0 80,0 3,1 1,4 40 000 HC71905E.2RSD.T.P4S.UL 0,048
25 42 9 9 0,3 29,0 38,5 0,3 14 42 84 17,0 26,5 36,5 3,3 2,1 43 000 63 000 HS71905C.T.P4S.UL 0,050
25 42 9 12 0,3 29,0 38,5 0,3 23 69 138 42,0 63,0 82,5 3,1 2,0 36 000 53 000 HS71905E.T.P4S.UL 0,050
25 42 9 9 0,3 29,0 38,5 0,3 10 30 60 16,5 25,5 34,5 3,3 1,5 48 000 70 000 HC71905C.T.P4S.UL 0,048
25 42 9 12 0,3 29,0 38,5 0,3 16 48 96 42,5 62,0 80,0 3,1 1,4 40 000 60 000 HC71905E.T.P4S.UL 0,048
25 42 9 9 0,3 29,0 38,5 0,3 10 30 60 16,5 25,5 34,5 5,2 1,5 63 000 95 000 XC71905C.T.P4S.UL 0,048
25 42 9 12 0,3 29,0 38,5 0,3 16 48 96 42,5 62,0 80,0 5,0 1,4 53 000 80 000 XC71905E.T.P4S.UL 0,048
25 47 12 11 0,6 30,0 42,0 0,6 21 63 126 20,5 33,0 45,5 4,7 2,9 38 000 HS7005C.2RSD.T.P4S.UL 0,090
25 47 12 14 0,6 30,0 42,0 0,6 35 105 210 51,5 76,5 100,5 4,5 2,7 34 000 HS7005E.2RSD.T.P4S.UL 0,090
25 47 12 11 0,6 30,0 42,0 0,6 15 45 90 20,1 31,5 42,0 4,7 2,0 45 000 HC7005C.2RSD.T.P4S.UL 0,087
25 47 12 14 0,6 30,0 42,0 0,6 24 72 144 51,0 75,0 98,0 4,5 1,9 38 000 HC7005E.2RSD.T.P4S.UL 0,087
25 47 12 11 0,6 30,0 42,0 0,6 21 63 126 20,5 33,0 45,5 4,7 2,9 38 000 56 000 HS7005C.T.P4S.UL 0,090
25 47 12 14 0,6 30,0 42,0 0,6 35 105 210 51,5 76,5 100,5 4,5 2,7 34 000 50 000 HS7005E.T.P4S.UL 0,090
25 47 12 11 0,6 30,0 42,0 0,6 15 45 90 20,1 31,5 42,0 4,7 2,0 45 000 67 000 HC7005C.T.P4S.UL 0,087
25 47 12 14 0,6 30,0 42,0 0,6 24 72 144 51,0 75,0 98,0 4,5 1,9 38 000 56 000 HC7005E.T.P4S.UL 0,087
25 47 12 11 0,6 30,0 42,0 0,6 15 45 90 20,1 31,5 42,0 7,6 2,0 60 000 90 000 XC7005C.T.P4S.UL 0,087
25 47 12 14 0,6 30,0 42,0 0,6 24 72 144 51,0 75,0 98,0 7,2 1,9 50 000 75 000 XC7005E.T.P4S.UL 0,087
30 30 47 9 10 0,3 34,0 43,5 0,3 21 63 126 21,3 33,5 47,0 4,9 3,2 36 000 HS71906C.2RSD.T.P4S.UL 0,050
30 47 9 13 0,3 34,0 43,5 0,3 35 105 210 53,2 79,5 103,5 4,7 3,0 32 000 HS71906E.2RSD.T.P4S.UL 0,050
30 47 9 10 0,3 34,0 43,5 0,3 15 45 90 21,0 32,5 44,0 4,9 2,2 43 000 HC71906C.2RSD.T.P4S.UL 0,047
30 47 9 13 0,3 34,0 43,5 0,3 24 72 144 53,0 78,0 101,5 4,7 2,1 36 000 HC71906E.2RSD.T.P4S.UL 0,047
30 47 9 10 0,3 34,0 43,5 0,3 21 63 126 21,3 33,5 47,0 4,9 3,2 36 000 53 000 HS71906C.T.P4S.UL 0,050
30 47 9 13 0,3 34,0 43,5 0,3 35 105 210 53,2 79,5 103,5 4,7 3,0 32 000 48 000 HS71906E.T.P4S.UL 0,050
30 47 9 10 0,3 34,0 43,5 0,3 15 45 90 21,0 32,5 44,0 4,9 2,2 43 000 63 000 HC71906C.T.P4S.UL 0,047
30 47 9 13 0,3 34,0 43,5 0,3 24 72 144 53,0 78,0 101,5 4,7 2,1 36 000 53 000 HC71906E.T.P4S.UL 0,047
30 47 9 10 0,3 34,0 43,5 0,3 15 45 90 21,0 32,5 44,0 7,9 2,2 53 000 80 000 XC71906C.T.P4S.UL 0,047
30 47 9 13 0,3 34,0 43,5 0,3 24 72 144 53,0 78,0 101,5 7,5 2,1 48 000 70 000 XC71906E.T.P4S.UL 0,047
30 55 13 12 1,0 36,0 49,0 1,0 29 87 174 24,3 38,8 53,5 6,7 4,3 32 000 HS7006C.2RSD.T.P4S.UL 0,130
30 55 13 16 1,0 36,0 49,0 1,0 48 144 288 61,0 90,5 118,0 6,3 4,0 28 000 HS7006E.2RSD.T.P4S.UL 0,130
30 55 13 12 1,0 36,0 49,0 1,0 20 60 120 24,0 37,0 50,0 6,7 3,0 38 000 HC7006C.2RSD.T.P4S.UL 0,125
30 55 13 16 1,0 36,0 49,0 1,0 33 99 198 60,5 89,5 116,0 6,3 2,8 32 000 HC7006E.2RSD.T.P4S.UL 0,125
B
D
d
a
rs
rs
rs
rs
α
Contact angleα = 15°/25°
HS...C/EHC...C/EXC...C/E installation dimension
ra
raDada
installation dimension
ra
raDa
dad
B
a
rs
rs
α
Contact angleα = 15°/25°
HS...C/E.2RSDHC...C/E.2RSD
D
rs
rs
SLF-High-precision bearings | Page 57
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin dah12 DaH12 ramax L M S L M S dyn C stat Co grease oil bearing kg
30 30 55 13 12 1,0 36,0 49,0 1,0 29 87 174 24,3 38,8 53,5 6,7 4,3 32 000 48 000 HS7006C.T.P4S.UL 0,130
30 55 13 16 1,0 36,0 49,0 1,0 48 144 288 61,0 90,5 118,0 6,3 4,0 28 000 43 000 HS7006E.T.P4S.UL 0,130
30 55 13 12 1,0 36,0 49,0 1,0 20 60 120 24,0 37,0 50,0 6,7 3,0 38 000 56 000 HC7006C.T.P4S.UL 0,013
30 55 13 16 1,0 36,0 49,0 1,0 33 99 198 60,5 89,5 116,0 6,3 2,8 32 000 48 000 HC7006E.T.P4S.UL 0,125
30 55 13 12 1,0 36,0 49,0 1,0 20 60 120 24,0 37,0 50,0 10,7 3,0 50 000 75 000 XC7006C.T.P4S.UL 0,125
30 55 13 16 1,0 36,0 49,0 1,0 33 99 198 60,5 89,5 116,0 10,1 2,8 40 000 60 000 XC7006E.T.P4S.UL 0,125
35 35 55 10 11 0,6 40,0 51,5 0,6 24 72 144 25,0 39,0 53,5 5,4 3,8 32 000 HS71907C.2RSD.T.P4S.UL 0,080
35 55 10 16 0,6 40,0 51,5 0,6 38 114 228 61,5 91,5 119,5 5,1 3,6 26 000 HS71907E.2RSD.T.P4S.UL 0,080
35 55 10 11 0,6 40,0 51,5 0,6 16 48 96 24,0 37,0 50,0 5,4 2,7 36 000 HC71907C.2RSD.T.P4S.UL 0,076
35 55 10 16 0,6 40,0 51,5 0,6 26 78 156 60,5 90,5 117,0 5,1 2,5 30 000 HC71907E.2RSD.T.P4S.UL 0,076
35 55 10 11 0,6 40,0 51,5 0,6 24 72 144 25,0 39,0 53,5 5,4 3,8 32 000 48 000 HS71907C.T.P4S.UL 0,080
35 55 10 16 0,6 40,0 51,5 0,6 38 114 228 61,5 91,5 119,5 5,1 3,6 26 000 40 000 HS71907E.T.P4S.UL 0,080
35 55 10 11 0,6 40,0 51,5 0,6 16 48 96 24,0 37,0 50,0 5,4 2,7 36 000 53 000 HC71907C.T.P4S.UL 0,076
35 55 10 16 0,6 40,0 51,5 0,6 26 78 156 60,5 90,5 117,0 5,1 2,5 30 000 45 000 HC71907E.T.P4S.UL 0,076
35 55 10 11 0,6 40,0 51,5 0,6 16 48 96 24,0 37,0 50,0 8,7 2,7 48 000 70 000 XC71907C.T.P4S.UL 0,076
35 55 10 16 0,6 40,0 51,5 0,6 26 78 156 60,5 90,5 117,0 8,2 2,5 40 000 60 000 XC71907E.T.P4S.UL 0,076
35 62 14 14 1,0 41,0 56,0 1,0 32 96 192 27,5 43,0 60,0 7,2 5,0 28 000 HS7007C.2RSD.T.P4S.UL 0,170
35 62 14 18 1,0 41,0 56,0 1,0 51 153 306 67,5 101,5 132,5 6,8 4,7 24 000 HS7007E.2RSD.T.P4S.UL 0,170
35 62 14 14 1,0 41,0 56,0 1,0 22 66 132 27,0 41,0 55,5 7,2 3,5 34 000 HC7007C.2RSD.T.P4S.UL 0,164
35 62 14 18 1,0 41,0 56,0 1,0 36 108 216 68,5 100,5 130,0 6,8 3,3 28 000 HC7007E.2RSD.T.P4S.UL 0,164
35 62 14 14 1,0 41,0 56,0 1,0 32 96 192 27,5 43,0 60,0 7,2 5,0 28 000 43 000 HS7007C.T.P4S.UL 0,170
35 62 14 18 1,0 41,0 56,0 1,0 51 153 306 67,5 101,5 132,5 6,8 4,7 24 000 38 000 HS7007E.T.P4S.UL 0,170
35 62 14 14 1,0 41,0 56,0 1,0 22 66 132 27,0 41,0 55,5 7,2 3,5 34 000 50 000 HC7007C.T.P4S.UL 0,164
35 62 14 18 1,0 41,0 56,0 1,0 36 108 216 68,5 100,5 130,0 6,8 3,3 28 000 43 000 HC7007E.T.P4S.UL 0,164
35 62 14 14 1,0 41,0 56,0 1,0 22 66 132 27,0 41,0 55,5 11,5 3,5 43 000 63 000 XC7007C.T.P4S.UL 0,164
35 62 14 18 1,0 41,0 56,0 1,0 36 108 216 68,5 100,5 130,0 10,8 3,3 36 000 53 000 XC7007E.T.P4S.UL 0,164
40 40 62 12 13 0,6 45,0 58,5 0,6 25 75 150 27,0 42,0 58,0 5,7 4,4 28 000 HS71908C.2RSD.T.P4S.UL 0,130
40 62 12 18 0,6 45,0 58,5 0,6 40 120 240 67,0 100,0 130,0 5,4 4,1 24 000 HS71908E.2RSD.T.P4S.UL 0,130
40 62 12 13 0,6 45,0 58,5 0,6 17 51 102 26,5 40,5 54,5 5,7 3,1 32 000 HC71908C.2RSD.T.P4S.UL 0,126
40 62 12 18 0,6 45,0 58,5 0,6 28 84 168 67,0 99,0 128,0 5,4 2,9 28 000 HC71908E.2RSD.T.P4S.UL 0,160
B
D
d
a
rs
rs
rs
rs
α
Contact angleα = 15°/25°
HS...C/EHC...C/EXC...C/E installation dimension
ra
raDada
installation dimension
ra
raDa
dad
B
a
rs
rs
α
Contact angleα = 15°/25°
HS...C/E.2RSDHC...C/E.2RSD
D
rs
rs
SLF-High-precision bearings | Page 58
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin dah12 DaH12 ramax L M S L M S dyn C stat Co grease oil bearing kg
40 40 62 12 13 0,6 45,0 58,5 0,6 25 75 150 27,0 42,0 58,0 5,7 4,4 28 000 43 000 HS71908C.T.P4S.UL 0,130
40 62 12 18 0,6 45,0 58,5 0,6 40 120 240 67,0 100,0 130,0 5,4 4,1 24 000 38 000 HS71908E.T.P4S.UL 0,130
40 62 12 13 0,6 45,0 58,5 0,6 17 51 102 26,5 40,5 54,5 5,7 3,1 32 000 48 000 HC71908C.T.P4S.UL 0,126
40 62 12 18 0,6 45,0 58,5 0,6 28 84 168 67,0 99,0 128,0 5,4 2,9 28 000 43 000 HC71908E.T.P4S.UL 0,126
40 62 12 13 0,6 45,0 58,5 0,6 17 51 102 26,5 40,5 54,5 9,1 3,1 40 000 60 000 XC71908C.T.P4S.UL 0,126
40 62 12 18 0,6 45,0 58,5 0,6 28 84 168 67,0 99,0 128,0 8,6 2,9 36 000 53 000 XC71908E.T.P4S.UL 0,126
40 68 15 15 1,0 46,0 62,0 1,0 34 102 204 30,0 48,0 65,0 7,6 5,7 26 000 HS7008C.2RSD.T.P4S.UL 0,220
40 68 15 20 1,0 46,0 62,0 1,0 54 160 324 75,0 112,0 146,0 7,2 5,4 22 000 HS7008E.2RSD.T.P4S.UL 0,220
40 68 15 15 1,0 46,0 62,0 1,0 23 69 138 29,5 45,5 61,0 7,6 4,0 30 000 HC7008C.2RSD.T.P4S.UL 0,213
40 68 15 20 1,0 46,0 62,0 1,0 38 114 228 74,8 111,0 143,0 7,2 3,8 26 000 HC7008E.2RSD.T.P4S.UL 0,213
40 68 15 15 1,0 46,0 62,0 1,0 34 102 204 30,0 48,0 65,0 7,6 5,7 26 000 40 000 HS7008C.T.P4S.UL 0,220
40 68 15 20 1,0 46,0 62,0 1,0 54 160 324 75,0 112,0 146,0 7,2 5,4 22 000 36 000 HS7008E.T.P4S.UL 0,220
40 68 15 15 1,0 46,0 62,0 1,0 23 69 138 29,5 45,5 61,0 7,6 4,0 30 000 45 000 HC7008C.T.P4S.UL 0,213
40 68 15 20 1,0 46,0 62,0 1,0 38 114 228 74,8 111,0 143,0 7,2 3,8 26 000 40 000 HC7008E.T.P4S.UL 0,213
40 68 15 15 1,0 46,0 62,0 1,0 23 69 138 29,5 45,5 61,0 12,2 4,0 38 000 56 000 XC7008C.T.P4S.UL 0,213
40 68 15 20 1,0 46,0 62,0 1,0 38 114 228 74,8 111,0 143,0 11,5 3,8 34 000 50 000 XC7008E.T.P4S.UL 0,213
45 45 68 12 14 0,6 50,0 63,5 0,6 34 102 204 31,3 49,0 67,0 7,8 6,0 24 000 HS71909C.2RSD.T.P4S.UL 0,140
45 68 12 19 0,6 50,0 63,5 0,6 55 165 330 77,7 115,5 151,0 7,4 5,6 22 000 HS71909E.2RSD.T.P4S.UL 0,140
45 68 12 14 0,6 50,0 63,5 0,6 24 72 144 31,0 47,0 63,0 7,8 4,2 28 000 HC71909C.2RSD.T.P4S.UL 0,133
45 68 12 19 0,6 50,0 63,5 0,6 38 114 228 77,0 114,0 148,0 7,4 3,9 24 000 HC71909E.2RSD.T.P4S.UL 0,133
45 68 12 14 0,6 50,0 63,5 0,6 34 102 204 31,3 49,0 67,0 7,8 6,0 24 000 38 000 HS71909C.T.P4S.UL 0,140
45 68 12 19 0,6 50,0 63,5 0,6 55 165 330 77,7 115,5 151,0 7,4 5,6 22 000 36 000 HS71909E.T.P4S.UL 0,140
45 68 12 14 0,6 50,0 63,5 0,6 24 72 144 31,0 47,0 63,0 7,8 4,2 28 000 43 000 HC71909C.T.P4S.UL 0,133
45 68 12 19 0,6 50,0 63,5 0,6 38 114 228 77,0 114,0 148,0 7,4 3,9 24 000 38 000 HC71909E.T.P4S.UL 0,133
45 68 12 14 0,6 50,0 63,5 0,6 24 72 144 31,0 47,0 63,0 12,5 4,2 38 000 56 000 XC71909C.T.P4S.UL 0,133
45 68 12 19 0,6 50,0 63,5 0,6 38 114 228 77,0 114,0 148,0 11,8 3,9 32 000 48 000 XC71909E.T.P4S.UL 0,133
45 75 16 16 1,0 51,0 69,0 1,0 44 132 264 34,0 54,0 75,0 10,0 7,5 24 000 HS7009C.2RSD.T.P4S.UL 0,270
45 75 16 22 1,0 51,0 69,0 1,0 71 213 426 86,0 128,0 168,0 9,4 7,1 20 000 HS7009E.2RSD.T.P4S.UL 0,270
45 75 16 16 1,0 51,0 69,0 1,0 30 90 180 33,5 52,0 70,0 10,0 5,3 26 000 HC7009C.2RSD.T.P4S.UL 0,260
45 75 16 22 1,0 51,0 69,0 1,0 49 147 294 85,0 126,0 163,5 9,4 5,0 24 000 HC7009E.2RSD.T.P4S.UL 0,260
B
D
d
a
rs
rs
rs
rs
α
Contact angleα = 15°/25°
HS...C/EHC...C/EXC...C/E installation dimension
ra
raDada
installation dimension
ra
raDa
dad
B
a
rs
rs
α
Contact angleα = 15°/25°
HS...C/E.2RSDHC...C/E.2RSD
D
rs
rs
SLF-High-precision bearings | Page 59
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin dah12 DaH12 ramax L M S L M S dyn C stat Co grease oil bearing kg
45 45 75 16 16 1,0 51,0 69,0 1,0 44 132 264 34,0 54,0 75,0 10,0 7,5 24 000 38 000 HS7009C.T.P4S.UL 0,270
45 75 16 22 1,0 51,0 69,0 1,0 71 213 426 86,0 128,0 168,0 9,4 7,1 20 000 34 000 HS7009E.T.P4S.UL 0,270
45 75 16 16 1,0 51,0 69,0 1,0 30 90 180 33,5 52,0 70,0 10,0 5,3 26 000 40 000 HC7009C.T.P4S.UL 0,260
45 75 16 22 1,0 51,0 69,0 1,0 49 147 294 85,0 126,0 163,5 9,4 5,0 24 000 38 000 HC7009E.T.P4S.UL 0,260
45 75 16 16 1,0 51,0 69,0 1,0 30 90 180 33,5 52,0 70,0 15,9 5,3 34 000 50 000 XC7009C.T.P4S.UL 0,260
45 75 16 22 1,0 51,0 69,0 1,0 49 147 294 85,0 126,0 163,5 15,1 5,0 30 000 45 000 XC7009E.T.P4S.UL 0,260
50 50 72 12 14 0,6 55,0 67,5 0,6 35 105 210 33,0 51,0 70,0 8,1 6,5 22 000 HS71910C.2RSD.T.P4S.UL 0,150
50 72 12 20 0,6 55,0 67,5 0,6 58 174 348 82,0 122,0 160,0 7,6 6,1 20 000 HS71910E.2RSD.T.P4S.UL 0,150
50 72 12 14 0,6 55,0 67,5 0,6 24 72 144 32,0 49,0 66,0 8,1 4,5 26 000 HC71910C.2RSD.T.P4S.UL 0,142
50 72 12 20 0,6 55,0 67,5 0,6 39 117 234 81,7 120,0 156,0 7,6 4,3 22 000 HC71910E.2RSD.T.P4S.UL 0,142
50 72 12 14 0,6 55,0 67,5 0,6 35 105 210 33,0 51,0 70,0 8,1 6,5 22 000 36 000 HS71910C.T.P4S.UL 0,150
50 72 12 20 0,6 55,0 67,5 0,6 58 174 348 82,0 122,0 160,0 7,6 6,1 20 000 34 000 HS71910E.T.P4S.UL 0,150
50 72 12 14 0,6 55,0 67,5 0,6 24 72 144 32,0 49,0 66,0 8,1 4,5 26 000 40 000 HC71910C.T.P4S.UL 0,142
50 72 12 20 0,6 55,0 67,5 0,6 39 117 234 81,7 120,0 156,0 7,6 4,3 22 000 36 000 HC71910E.T.P4S.UL 0,142
50 72 12 14 0,6 55,0 67,5 0,6 24 72 144 32,0 49,0 66,0 12,9 4,5 34 000 50 000 XC71910C.T.P4S.UL 0,142
50 72 12 20 0,6 55,0 67,5 0,6 39 117 234 81,7 120,0 156,0 12,2 4,3 30 000 45 000 XC71910E.T.P4S.UL 0,142
50 80 16 17 1,0 56,0 74,0 1,0 46 138 276 37,0 58,0 79,5 10,3 8,2 22 000 HS7010C.2RSD.T.P4S.UL 0,290
50 80 16 23 1,0 56,0 74,0 1,0 74 222 444 91,0 136,0 178,0 9,8 7,7 18 000 HS7010E.2RSD.T.P4S.UL 0,290
50 80 16 17 1,0 56,0 74,0 1,0 32 96 192 36,0 55,0 75,0 10,3 5,7 24 000 HC7010C.2RSD.T.P4S.UL 0,279
50 80 16 23 1,0 56,0 74,0 1,0 51 153 306 91,5 134,5 174,0 9,8 5,4 22 000 HC7010E.2RSD.T.P4S.UL 0,279
50 80 16 17 1,0 56,0 74,0 1,0 46 138 276 37,0 58,0 79,5 10,3 8,2 22 000 36 000 HS7010C.T.P4S.UL 0,290
50 80 16 23 1,0 56,0 74,0 1,0 74 222 444 91,0 136,0 178,0 9,8 7,7 18 000 30 000 HS7010E.T.P4S.UL 0,290
50 80 16 17 1,0 56,0 74,0 1,0 32 96 192 36,0 55,0 75,0 10,3 5,7 24 000 38 000 HC7010C.T.P4S.UL 0,279
50 80 16 23 1,0 56,0 74,0 1,0 51 153 306 91,5 134,5 174,0 9,8 5,4 22 000 36 000 HC7010E.T.P4S.UL 0,279
50 80 16 17 1,0 56,0 74,0 1,0 32 96 192 36,0 55,0 75,0 16,5 5,7 32 000 48 000 XC7010C.T.P4S.UL 0,279
50 80 16 23 1,0 56,0 74,0 1,0 51 153 306 91,5 134,5 174,0 15,6 5,4 28 000 43 000 XC7010E.T.P4S.UL 0,279
55 55 80 13 16 1,0 60,0 75,5 0,6 46 138 276 38,0 59,0 82,0 10,4 8,5 20 000 HS71911C.2RSD.T.P4S.UL 0,200
55 80 13 22 1,0 60,0 75,5 0,6 75 225 450 94,0 140,0 183,0 9,8 8,1 18 000 HS71911E.2RSD.T.P4S.UL 0,200
55 80 13 16 1,0 60,0 75,5 0,6 32 96 192 37,0 57,0 77,0 10,4 6,0 24 000 HC71911C.2RSD.T.P4S.UL 0,188
55 80 13 22 1,0 60,0 75,5 0,6 52 156 312 93,5 138,5 179,5 9,8 5,6 20 000 HC71911E.2RSD.T.P4S.UL 0,188
B
D
d
a
rs
rs
rs
rs
α
Contact angleα = 15°/25°
HS...C/EHC...C/EXC...C/E installation dimension
ra
raDada
installation dimension
ra
raDa
dad
B
a
rs
rs
α
Contact angleα = 15°/25°
HS...C/E.2RSDHC...C/E.2RSD
D
rs
rs
SLF-High-precision bearings | Page 60
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin dah12 DaH12 ramax L M S L M S dyn C stat Co grease oil bearing kg
55 55 80 13 16 1,0 60,0 75,5 0,6 46 138 276 38,0 59,0 82,0 10,4 8,5 20 000 34 000 HS71911C.T.P4S.UL 0,200
55 80 13 22 1,0 60,0 75,5 0,6 75 225 450 94,0 140,0 183,0 9,8 8,1 18 000 30 000 HS71911E.T.P4S.UL 0,200
55 80 13 16 1,0 60,0 75,5 0,6 32 96 192 37,0 57,0 77,0 10,4 6,0 24 000 38 000 HC71911C.T.P4S.UL 0,188
55 80 13 22 1,0 60,0 75,5 0,6 52 156 312 93,5 138,5 179,5 9,8 5,6 20 000 34 000 HC71911E.T.P4S.UL 0,188
55 80 13 16 1,0 60,0 75,5 0,6 32 96 192 37,0 57,0 77,0 16,6 6,0 32 000 48 000 XC71911C.T.P4S.UL 0,188
55 80 13 22 1,0 60,0 75,5 0,6 52 156 312 93,5 138,5 179,5 15,7 5,6 26 000 40 000 XC71911E.T.P4S.UL 0,188
55 90 18 19 1,1 62,0 83,0 1,0 64 192 384 42,5 67,0 92,5 14,4 11,5 19 000 HS7011C.2RSD.T.P4S.UL 0,430
55 90 18 26 1,1 62,0 83,0 1,0 105 315 630 105,0 160,0 208,0 13,6 10,9 17 000 HS7011E.2RSD.T.P4S.UL 0,430
55 90 18 19 1,1 62,0 83,0 1,0 45 135 270 42,0 65,0 87,0 14,4 8,0 22 000 HC7011C.2RSD.T.P4S.UL 0,411
55 90 18 26 1,1 62,0 83,0 1,0 73 220 438 107,0 158,0 204,0 13,6 7,6 19 000 HC7011E.2RSD.T.P4S.UL 0,411
55 90 18 19 1,1 62,0 83,0 1,0 64 192 384 42,5 67,0 92,5 14,4 11,5 19 000 32 000 HS7011C.T.P4S.UL 0,430
55 90 18 26 1,1 62,0 83,0 1,0 105 315 630 105,0 160,0 208,0 13,6 10,9 17 000 28 000 HS7011E.T.P4S.UL 0,430
55 90 18 19 1,1 62,0 83,0 1,0 45 135 270 42,0 65,0 87,0 14,4 8,0 22 000 36 000 HC7011C.T.P4S.UL 0,411
55 90 18 26 1,1 62,0 83,0 1,0 73 220 438 107,0 158,0 204,0 13,6 7,6 19 000 32 000 HC7011E.T.P4S.UL 0,411
55 90 18 19 1,1 62,0 83,0 1,0 45 135 270 42,0 65,0 87,0 23,0 8,0 28 000 43 000 XC7011C.T.P4S.UL 0,411
55 90 18 26 1,1 62,0 83,0 1,0 73 220 438 107,0 158,0 204,0 21,8 7,6 24 000 38 000 XC7011E.T.P4S.UL 0,411
60 60 85 13 16 1,0 65,0 80,5 0,6 48 144 288 40,0 63,0 86,0 10,7 9,2 19 000 HS71912C.2RSD.T.P4S.UL 0,210
60 85 13 23 1,0 65,0 80,5 0,6 78 234 468 100,0 150,0 194,0 10,1 8,7 17 000 HS71912E.2RSD.T.P4S.UL 0,210
60 85 13 16 1,0 65,0 80,5 0,6 34 102 204 39,5 60,5 81,0 10,7 6,4 22 000 HC71912C.2RSD.T.P4S.UL 0,198
60 85 13 23 1,0 65,0 80,5 0,6 53 159 318 99,0 146,0 189,0 10,1 6,1 19 000 HC71912E.2RSD.T.P4S.UL 0,198
60 85 13 16 1,0 65,0 80,5 0,6 48 144 288 40,0 63,0 86,0 10,7 9,2 19 000 32 000 HS71912C.T.P4S.UL 0,210
60 85 13 23 1,0 65,0 80,5 0,6 78 234 468 100,0 150,0 194,0 10,1 8,7 17 000 28 000 HS71912E.T.P4S.UL 0,210
60 85 13 16 1,0 65,0 80,5 0,6 34 102 204 39,5 60,5 81,0 10,7 6,4 22 000 36 000 HC71912C.T.P4S.UL 0,198
60 85 13 23 1,0 65,0 80,5 0,6 53 159 318 99,0 146,0 189,0 10,1 6,1 19 000 32 000 HC71912E.T.P4S.UL 0,198
60 85 13 16 1,0 65,0 80,5 0,6 34 102 204 39,5 60,5 81,0 17,2 6,4 28 000 43 000 XC71912C.T.P4S.UL 0,198
60 85 13 23 1,0 65,0 80,5 0,6 53 159 318 99,0 146,0 189,0 16,2 6,1 24 000 38 000 XC71912E.T.P4S.UL 0,198
60 95 18 19 1,1 67,0 88,0 1,0 67 201 402 45,0 71,5 98,0 15,0 12,5 18 000 HS7012C.2RSD.T.P4S.UL 0,460
60 95 18 27 1,1 67,0 88,0 1,0 107 321 642 113,0 168,0 220,0 14,1 11,8 15 000 HS7012E.2RSD.T.P4S.UL 0,460
60 95 18 19 1,1 67,0 88,0 1,0 46 138 276 44,0 68,5 92,5 15,0 8,7 20 000 HC7012C.2RSD.T.P4S.UL 0,439
60 95 18 27 1,1 67,0 88,0 1,0 75 225 450 112,0 166,0 216,0 14,1 8,3 18 000 HC7012E.2RSD.T.P4S.UL 0,439
B
D
d
a
rs
rs
rs
rs
α
Contact angleα = 15°/25°
HS...C/EHC...C/EXC...C/E installation dimension
ra
raDada
installation dimension
ra
raDa
dad
B
a
rs
rs
α
Contact angleα = 15°/25°
HS...C/E.2RSDHC...C/E.2RSD
D
rs
rs
SLF-High-precision bearings | Page 61
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin dah12 DaH12 ramax L M S L M S dyn C stat Co grease oil bearing kg
60 60 95 18 19 1,1 67,0 88,0 1,0 67 201 402 45,0 71,5 98,0 15,0 12,5 18 000 30 000 HS7012C.T.P4S.UL 0,460
60 95 18 27 1,1 67,0 88,0 1,0 107 321 642 113,0 168,0 220,0 14,1 11,8 15 000 24 000 HS7012E.T.P4S.UL 0,460
60 95 18 19 1,1 67,0 88,0 1,0 46 138 276 44,0 68,5 92,5 15,0 8,7 20 000 34 000 HC7012C.T.P4S.UL 0,439
60 95 18 27 1,1 67,0 88,0 1,0 75 225 450 112,0 166,0 216,0 14,1 8,3 18 000 30 000 HC7012E.T.P4S.UL 0,439
60 95 18 19 1,1 67,0 88,0 1,0 46 138 276 44,0 68,5 92,5 23,9 8,7 28 000 43 000 XC7012C.T.P4S.UL 0,439
60 95 18 27 1,1 67,0 88,0 1,0 75 225 450 112,0 166,0 216,0 22,6 8,3 24 000 38 000 XC7012E.T.P4S.UL 0,439
65 65 90 13 17 1,0 70,0 85,5 0,6 49 147 294 41,5 65,5 90,0 11,0 9,9 18 000 HS71913C.2RSD.T.P4S.UL 0,230
65 90 13 25 1,0 70,0 85,5 0,6 80 240 480 105,0 156,0 202,0 10,4 9,3 15 000 HS71913E.2RSD.T.P4S.UL 0,230
65 90 13 17 1,0 70,0 85,5 0,6 34 102 204 41,0 63,0 85,0 11,0 6,9 20 000 HC71913C.2RSD.T.P4S.UL 0,217
65 90 13 25 1,0 70,0 85,5 0,6 55 165 330 104,0 154,0 199,0 10,4 6,5 18 000 HC71913E.2RSD.T.P4S.UL 0,217
65 90 13 17 1,0 70,0 85,5 0,6 49 147 294 41,5 65,5 90,0 11,0 9,9 18 000 30 000 HS71913C.T.P4S.UL 0,230
65 90 13 25 1,0 70,0 85,5 0,6 80 240 480 105,0 156,0 202,0 10,4 9,3 15 000 24 000 HS71913E.T.P4S.UL 0,230
65 90 13 17 1,0 70,0 85,5 0,6 34 102 204 41,0 63,0 85,0 11,0 6,9 20 000 34 000 HC71913C.T.P4S.UL 0,217
65 90 13 25 1,0 70,0 85,5 0,6 55 165 330 104,0 154,0 199,0 10,4 6,5 18 000 30 000 HC71913E.T.P4S.UL 0,217
65 90 13 17 1,0 70,0 85,5 0,6 34 102 204 41,0 63,0 85,0 17,6 6,9 26 000 43 000 XC71913C.T.P4S.UL 0,217
65 90 13 25 1,0 70,0 85,5 0,6 55 165 330 104,0 154,0 199,0 16,6 6,5 24 000 38 000 XC71913E.T.P4S.UL 0,217
65 100 18 20 1,1 72,0 93,0 1,0 70 210 420 48,0 76,0 104,0 15,5 13,5 17 000 HS7013C.2RSD.T.P4S.UL 0,480
65 100 18 28 1,1 72,0 93,0 1,0 112 336 672 120,0 178,0 233,0 14,6 12,7 15 000 HS7013E.2RSD.T.P4S.UL 0,480
65 100 18 20 1,1 72,0 93,0 1,0 47 141 282 46,0 72,0 97,0 15,5 9,4 20 000 HC7013C.2RSD.T.P4S.UL 0,458
65 100 18 28 1,1 72,0 93,0 1,0 77 231 462 119,0 176,0 225,0 14,6 8,9 17 000 HC7013E.2RSD.T.P4S.UL 0,458
65 100 18 20 1,1 72,0 93,0 1,0 70 210 420 48,0 76,0 104,0 15,5 13,5 17 000 28 000 HS7013C.T.P4S.UL 0,480
65 100 18 28 1,1 72,0 93,0 1,0 112 336 672 120,0 178,0 233,0 14,6 12,7 15 000 24 000 HS7013E.T.P4S.UL 0,480
65 100 18 20 1,1 72,0 93,0 1,0 47 141 282 46,0 72,0 97,0 15,5 9,4 20 000 34 000 HC7013C.T.P4S.UL 0,458
65 100 18 28 1,1 72,0 93,0 1,0 77 231 462 119,0 176,0 225,0 14,6 8,9 17 000 28 000 HC7013E.T.P4S.UL 0,458
65 100 18 20 1,1 72,0 93,0 1,0 47 141 282 46,0 72,0 97,0 24,7 9,4 26 000 40 000 XC7013C.T.P4S.UL 0,458
65 100 18 28 1,1 72,0 93,0 1,0 77 231 462 119,0 176,0 225,0 23,3 8,9 22 000 36 000 XC7013E.T.P4S.UL 0,458
70 70 100 16 19 1,0 76,0 94,5 0,6 64 192 384 48,0 75,0 103,0 14,3 12,9 16 000 HS71914C.2RSD.T.P4S.UL 0,370
70 100 16 28 1,0 76,0 94,5 0,6 103 309 618 120,0 177,0 230,0 13,4 12,2 14 000 HS71914E.2RSD.T.P4S.UL 0,370
70 100 16 19 1,0 76,0 94,5 0,6 44 132 264 47,0 72,0 96,0 14,3 9,1 19 000 HC71914C.2RSD.T.P4S.UL 0,350
70 100 16 28 1,0 76,0 94,5 0,6 71 213 426 118,0 175,0 227,0 13,4 8,6 16 000 HC71914E.2RSD.T.P4S.UL 0,350
B
D
d
a
rs
rs
rs
rs
α
Contact angleα = 15°/25°
HS...C/EHC...C/EXC...C/E installation dimension
ra
raDada
installation dimension
ra
raDa
dad
B
a
rs
rs
α
Contact angleα = 15°/25°
HS...C/E.2RSDHC...C/E.2RSD
D
rs
rs
SLF-High-precision bearings | Page 62
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin dah12 DaH12 ramax L M S L M S dyn C stat Co grease oil bearing kg
70 70 100 16 19 1,0 76,0 94,5 0,6 64 192 384 48,0 75,0 103,0 14,3 12,9 16 000 26 000 HS71914C.T.P4S.UL 0,370
70 100 16 28 1,0 76,0 94,5 0,6 103 309 618 120,0 177,0 230,0 13,4 12,2 14 000 22 000 HS71914E.T.P4S.UL 0,370
70 100 16 19 1,0 76,0 94,5 0,6 44 132 264 47,0 72,0 96,0 14,3 9,1 19 000 32 000 HC71914C.T.P4S.UL 0,350
70 100 16 28 1,0 76,0 94,5 0,6 71 213 426 118,0 175,0 227,0 13,4 8,6 16 000 26 000 HC71914E.T.P4S.UL 0,350
70 100 16 19 1,0 76,0 94,5 0,6 44 132 264 47,0 72,0 96,0 22,8 9,1 24 000 40 000 XC71914C.T.P4S.UL 0,350
70 100 16 28 1,0 76,0 94,5 0,6 71 213 426 118,0 175,0 227,0 21,5 8,6 22 000 36 000 XC71914E.T.P4S.UL 0,350
70 110 20 22 1,1 77,0 102,0 1,0 89 267 534 53,0 82,5 114,0 20,0 17,2 16 000 HS7014C.2RSD.T.P4S.UL 0,670
70 110 20 31 1,1 77,0 102,0 1,0 146 438 876 132,0 197,0 257,0 18,9 16,3 13 000 HS7014E.2RSD.T.P4S.UL 0,670
70 110 20 22 1,1 77,0 102,0 1,0 63 189 378 52,0 80,0 107,5 20,0 12,1 18 000 HC7014C.2RSD.T.P4S.UL 0,636
70 110 20 31 1,1 77,0 102,0 1,0 101 303 606 131,6 195,0 252,0 18,9 11,4 15 000 HC7014E.2RSD.T.P4S.UL 0,636
70 110 20 22 1,1 77,0 102,0 1,0 89 267 534 53,0 82,5 114,0 20,0 17,2 16 000 26 000 HS7014C.T.P4S.UL 0,670
70 110 20 31 1,1 77,0 102,0 1,0 146 438 876 132,0 197,0 257,0 18,9 16,3 13 000 20 000 HS7014E.T.P4S.UL 0,670
70 110 20 22 1,1 77,0 102,0 1,0 63 189 378 52,0 80,0 107,5 20,0 12,1 18 000 30 000 HC7014C.T.P4S.UL 0,636
70 110 20 31 1,1 77,0 102,0 1,0 101 303 606 131,6 195,0 252,0 18,9 11,4 15 000 24 000 HC7014E.T.P4S.UL 0,636
70 110 20 22 1,1 77,0 102,0 1,0 63 189 378 52,0 80,0 107,5 32,0 12,1 24 000 38 000 XC7014C.T.P4S.UL 0,636
70 110 20 31 1,1 77,0 102,0 1,0 101 303 606 131,6 195,0 252,0 30,3 11,4 20 000 34 000 XC7014E.T.P4S.UL 0,636
75 75 105 16 20 1,0 81,0 99,5 0,6 65 195 390 50,1 78,2 106,8 14,7 13,8 16 000 HS71915C.2RSD.T.P4S.UL 0,400
75 105 16 29 1,0 81,0 99,5 0,6 105 310 630 125,0 185,0 240,5 13,8 13,0 13 000 HS71915E.2RSD.T.P4S.UL 0,400
75 105 16 20 1,0 81,0 99,5 0,6 45 133 265 48,6 75,1 100,6 14,7 9,7 18 000 HC71915C.2RSD.T.P4S.UL 0,379
75 105 16 29 1,0 81,0 99,5 0,6 72 220 435 124,5 185,4 238,0 13,8 9,1 15 000 HC71915E.2RSD.T.P4S.UL 0,379
75 105 16 20 1,0 81,0 99,5 0,6 65 195 390 50,1 78,2 106,8 14,7 13,8 16 000 26 000 HS71915C.T.P4S.UL 0,400
75 105 16 29 1,0 81,0 99,5 0,6 105 310 630 125,0 185,0 240,5 13,8 13,0 13 000 20 000 HS71915E.T.P4S.UL 0,400
75 105 16 20 1,0 81,0 99,5 0,6 45 133 265 48,6 75,1 100,6 14,7 9,7 18 000 30 000 HC71915C.T.P4S.UL 0,379
75 105 16 29 1,0 81,0 99,5 0,6 72 220 435 124,5 185,4 238,0 13,8 9,1 15 000 24 000 HC71915E.T.P4S.UL 0,379
75 105 16 20 1,0 81,0 99,5 0,6 45 133 265 48,6 75,1 100,6 23,4 9,7 23 000 40 000 XC71915C.T.P4S.UL 0,379
75 105 16 29 1,0 81,0 99,5 0,6 72 220 435 124,5 185,4 238,0 22,1 9,1 19 000 32 000 XC71915E.T.P4S.UL 0,379
75 115 20 23 1,1 82,0 107,0 1,0 91 273 546 55,0 86,0 117,0 20,3 17,9 15 000 HS7015C.2RSD.T.P4S.UL 0,710
75 115 20 32 1,1 82,0 107,0 1,0 148 444 888 136,0 202,0 262,0 19,1 17,0 13 000 HS7015E.2RSD.T.P4S.UL 0,710
75 115 20 23 1,1 82,0 107,0 1,0 64 192 378 54,0 82,0 110,0 20,3 12,6 17 000 HC7015C.2RSD.T.P4S.UL 0,675
75 115 20 32 1,1 82,0 107,0 1,0 102 306 610 134,0 199,0 257,0 19,1 11,9 15 000 HC7015E.2RSD.T.P4S.UL 0,675
B
D
d
a
rs
rs
rs
rs
α
Contact angleα = 15°/25°
HS...C/EHC...C/EXC...C/E installation dimension
ra
raDada
installation dimension
ra
raDa
dad
B
a
rs
rs
α
Contact angleα = 15°/25°
HS...C/E.2RSDHC...C/E.2RSD
D
rs
rs
SLF-High-precision bearings | Page 63
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin dah12 DaH12 ramax L M S L M S dyn C stat Co grease oil bearing kg
75 75 115 20 23 1,1 82,0 107,0 1,0 91 273 546 55,0 86,0 117,0 20,3 17,9 15 000 24 000 HS7015C.T.P4S.UL 0,710
75 115 20 32 1,1 82,0 107,0 1,0 148 444 888 136,0 202,0 262,0 19,1 17,0 13 000 20 000 HS7015E.T.P4S.UL 0,710
75 115 20 23 1,1 82,0 107,0 1,0 64 192 378 54,0 82,0 110,0 20,3 12,6 17 000 28 000 HC7015C.T.P4S.UL 0,675
75 115 20 32 1,1 82,0 107,0 1,0 102 306 610 134,0 199,0 257,0 19,1 11,9 15 000 24 000 HC7015E.T.P4S.UL 0,675
75 115 20 23 1,1 82,0 107,0 1,0 64 192 378 54,0 82,0 110,0 32,5 12,6 22 000 36 000 XC7015C.T.P4S.UL 0,675
75 115 20 32 1,1 82,0 107,0 1,0 102 306 610 134,0 199,0 257,0 30,6 11,9 19 000 32 000 XC7015E.T.P4S.UL 0,675
80 80 110 16 21 1,0 86,0 104,0 0,6 73 219 438 53,0 83,0 113,0 16,3 15,5 15 000 HS71916C.2RSD.T.P4S.UL 0,410
80 110 16 30 1,0 86,0 104,0 0,6 117 351 702 132,0 196,0 256,0 15,4 14,6 13 000 HS71916E.2RSD.T.P4S.UL 0,410
80 110 16 21 1,0 86,0 104,0 0,6 50 150 300 52,0 79,0 106,0 16,3 10,8 17 000 HC71916C.2RSD.T.P4S.UL 0,385
80 110 16 30 1,0 86,0 104,0 0,6 81 243 486 130,0 194,0 251,0 15,4 10,2 15 000 HC71916E.2RSD.T.P4S.UL 0,385
80 110 16 21 1,0 86,0 104,0 0,6 73 219 438 53,0 83,0 113,0 16,3 15,5 15 000 24 000 HS71916C.T.P4S.UL 0,410
80 110 16 30 1,0 86,0 104,0 0,6 117 351 702 132,0 196,0 256,0 15,4 14,6 13 000 20 000 HS71916E.T.P4S.UL 0,410
80 110 16 21 1,0 86,0 104,0 0,6 50 150 300 52,0 79,0 106,0 16,3 10,8 17 000 28 000 HC71916C.T.P4S.UL 0,385
80 110 16 30 1,0 86,0 104,0 0,6 81 243 486 130,0 194,0 251,0 15,4 10,2 15 000 24 000 HC71916E.T.P4S.UL 0,385
80 110 16 21 1,0 86,0 104,0 0,6 50 150 300 52,0 79,0 106,0 26,1 10,8 22 000 36 000 XC71916C.T.P4S.UL 0,385
80 110 16 30 1,0 86,0 104,0 0,6 81 243 486 130,0 194,0 251,0 24,6 10,2 19 000 32 000 XC71916E.T.P4S.UL 0,385
80 125 22 25 1,1 88,0 117,0 1,0 109 327 654 59,0 93,0 128,0 24,4 21,8 14 000 HS7016C.2RSD.T.P4S.UL 0,960
80 125 22 35 1,1 88,0 117,0 1,0 175 525 1050 148,0 220,0 288,0 23,1 20,6 12 000 HS7016E.2RSD.T.P4S.UL 0,960
80 125 22 25 1,1 88,0 117,0 1,0 74 222 444 57,0 88,0 119,0 24,4 15,2 16 000 HC7016C.2RSD.T.P4S.UL 0,915
80 125 22 35 1,1 88,0 117,0 1,0 123 369 738 147,0 218,0 283,0 23,1 14,4 13 000 HC7016E.2RSD.T.P4S.UL 0,192
80 125 22 25 1,1 88,0 117,0 1,0 109 327 654 59,0 93,0 128,0 24,4 21,8 14 000 22 000 HS7016C.T.P4S.UL 0,960
80 125 22 35 1,1 88,0 117,0 1,0 175 525 1050 148,0 220,0 288,0 23,1 20,6 12 000 19 000 HS7016E.T.P4S.UL 0,960
80 125 22 25 1,1 88,0 117,0 1,0 74 222 444 57,0 88,0 119,0 24,4 15,2 16 000 26 000 HC7016C.T.P4S.UL 0,915
80 125 22 35 1,1 88,0 117,0 1,0 123 369 738 147,0 218,0 283,0 23,1 14,4 13 000 20 000 HC7016E.T.P4S.UL 0,915
80 125 22 25 1,1 88,0 117,0 1,0 74 222 444 57,0 88,0 119,0 39,1 15,2 20 000 34 000 XC7016C.T.P4S.UL 0,915
80 125 22 35 1,1 88,0 117,0 1,0 123 369 738 147,0 218,0 283,0 36,9 14,4 17 000 28 000 XC7016E.T.P4S.UL 0,915
85 85 120 18 23 1,1 92,0 114,0 0,6 76 228 456 58,0 89,0 121,0 17,0 17,0 14 000 HS71917C.2RSD.T.P4S.UL 0,610
85 120 18 33 1,1 92,0 114,0 0,6 123 369 738 142,0 210,0 274,0 16,0 16,0 12 000 HS71917E.2RSD.T.P4S.UL 0,610
85 120 18 23 1,1 92,0 114,0 0,6 53 159 318 56,0 85,0 115,0 17,0 11,9 16 000 HC71917C.2RSD.T.P4S.UL 0,582
85 120 18 33 1,1 92,0 114,0 0,6 84 252 504 141,0 207,5 269,0 16,0 11,2 13 000 HC71917E.2RSD.T.P4S.UL 0,582
B
D
d
a
rs
rs
rs
rs
α
Contact angleα = 15°/25°
HS...C/EHC...C/EXC...C/E installation dimension
ra
raDada
installation dimension
ra
raDa
dad
B
a
rs
rs
α
Contact angleα = 15°/25°
HS...C/E.2RSDHC...C/E.2RSD
D
rs
rs
SLF-High-precision bearings | Page 64
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin dah12 DaH12 ramax L M S L M S dyn C stat Co grease oil bearing kg
85 85 120 18 23 1,1 92,0 114,0 0,6 76 228 456 58,0 89,0 121,0 17,0 17,0 14 000 22 000 HS71917C.T.P4S.UL 0,610
85 120 18 33 1,1 92,0 114,0 0,6 123 369 738 142,0 210,0 274,0 16,0 16,0 12 000 19 000 HS71917E.T.P4S.UL 0,610
85 120 18 23 1,1 92,0 114,0 0,6 53 159 318 56,0 85,0 115,0 17,0 11,9 16 000 26 000 HC71917C.T.P4S.UL 0,582
85 120 18 33 1,1 92,0 114,0 0,6 84 252 504 141,0 207,5 269,0 16,0 11,2 13 000 20 000 HC71917E.T.P4S.UL 0,582
85 120 18 23 1,1 92,0 114,0 0,6 53 159 318 56,0 85,0 115,0 27,1 11,9 20 000 34 000 XC71917C.T.P4S.UL 0,582
85 120 18 33 1,1 92,0 114,0 0,6 84 252 504 141,0 207,5 269,0 25,6 11,2 17 000 28 000 XC71917E.T.P4S.UL 0,582
85 130 22 25 1,1 93,0 122,0 1,0 109 327 654 61,0 95,0 130,0 24,6 22,6 13 000 HS7017C.2RSD.T.P4S.UL 0,990
85 130 22 36 1,1 93,0 122,0 1,0 178 534 1068 152,0 225,0 295,0 23,2 21,4 11 000 HS7017E.2RSD.T.P4S.UL 0,990
85 130 22 25 1,1 93,0 122,0 1,0 76 228 456 60,0 92,0 123,0 24,6 15,8 15 000 HC7017C.2RSD.T.P4S.UL 0,942
85 130 22 36 1,1 93,0 122,0 1,0 123 369 738 152,0 224,0 289,0 23,2 15,0 13 000 HC7017E.2RSD.T.P4S.UL 0,942
85 130 22 25 1,1 93,0 122,0 1,0 109 327 654 61,0 95,0 130,0 24,6 22,6 13 000 20 000 HS7017C.T.P4S.UL 0,990
85 130 22 36 1,1 93,0 122,0 1,0 178 534 1068 152,0 225,0 295,0 23,2 21,4 11 000 18 000 HS7017E.T.P4S.UL 0,990
85 130 22 25 1,1 93,0 122,0 1,0 76 228 456 60,0 92,0 123,0 24,6 15,8 15 000 24 000 HC7017C.T.P4S.UL 0,942
85 130 22 36 1,1 93,0 122,0 1,0 123 369 738 152,0 224,0 289,0 23,2 15,0 13 000 20 000 HC7017E.T.P4S.UL 0,942
85 130 22 25 1,1 93,0 122,0 1,0 76 228 456 60,0 92,0 123,0 39,3 15,8 19 000 32 000 XC7017C.T.P4S.UL 0,942
85 130 22 36 1,1 93,0 122,0 1,0 123 369 738 152,0 224,0 289,0 37,1 15,0 16 000 26 000 XC7017E.T.P4S.UL 0,942
90 90 125 18 23 1,1 97,0 119,0 0,6 83 249 498 58,0 91,0 125,0 18,6 18,7 13 000 HS71918C.2RSD.T.P4S.UL 0,630
90 125 18 34 1,1 97,0 119,0 0,6 133 399 798 146,0 215,0 280,0 17,7 17,7 11 000 HS71918E.2RSD.T.P4S.UL 0,630
90 125 18 23 1,1 97,0 119,0 0,6 57 171 342 56,0 87,0 117,0 18,6 13,1 15 000 HC71918C.2RSD.T.P4S.UL 0,598
90 125 18 34 1,1 97,0 119,0 0,6 92 276 552 145,0 215,0 277,0 17,7 12,4 13 000 HC71918E.2RSD.T.P4S.UL 0,598
90 125 18 23 1,1 97,0 119,0 0,6 83 249 498 58,0 91,0 125,0 18,6 18,7 13 000 20 000 HS71918C.T.P4S.UL 0,630
90 125 18 34 1,1 97,0 119,0 0,6 133 399 798 146,0 215,0 280,0 17,7 17,7 11 000 18 000 HS71918E.T.P4S.UL 0,630
90 125 18 23 1,1 97,0 119,0 0,6 57 171 342 56,0 87,0 117,0 18,6 13,1 15 000 24 000 HC71918C.T.P4S.UL 0,598
90 125 18 34 1,1 97,0 119,0 0,6 92 276 552 145,0 215,0 277,0 17,7 12,4 13 000 20 000 HC71918E.T.P4S.UL 0,598
90 125 18 23 1,1 97,0 119,0 0,6 57 171 342 56,0 87,0 117,0 29,7 13,1 19 000 32 000 XC71918C.T.P4S.UL 0,598
90 125 18 34 1,1 97,0 119,0 0,6 92 276 552 145,0 215,0 277,0 28,3 12,4 16 000 26 000 XC71918E.T.P4S.UL 0,598
90 140 24 27 1,5 100,0 131,0 1,5 130 390 780 66,0 104,0 142,0 28,7 26,6 12 000 HS7018C.2RSD.T.P4S.UL 1,31
90 140 24 39 1,5 100,0 131,0 1,5 207 621 1242 165,0 245,0 318,0 27,1 25,1 10 000 HS7018E.2RSD.T.P4S.UL 1,31
90 140 24 27 1,5 100,0 131,0 1,5 89 267 534 64,0 99,5 133,5 28,7 18,6 14 000 HC7018C.2RSD.T.P4S.UL 1,25
90 140 24 39 1,5 100,0 131,0 1,5 146 438 876 165,0 245,0 315,0 27,1 17,6 12 000 HC7018E.2RSD.T.P4S.UL 1,25
B
D
d
a
rs
rs
rs
rs
α
Contact angleα = 15°/25°
HS...C/EHC...C/EXC...C/E installation dimension
ra
raDada
installation dimension
ra
raDa
dad
B
a
rs
rs
α
Contact angleα = 15°/25°
HS...C/E.2RSDHC...C/E.2RSD
D
rs
rs
SLF-High-precision bearings | Page 65
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin dah12 DaH12 ramax L M S L M S dyn C stat Co grease oil bearing kg
90 90 140 24 27 1,5 100,0 131,0 1,5 130 390 780 66,0 104,0 142,0 28,7 26,6 12 000 19 000 HS7018C.T.P4S.UL 1,31
90 140 24 39 1,5 100,0 131,0 1,5 207 621 1242 165,0 245,0 318,0 27,1 25,1 10 000 17 000 HS7018E.T.P4S.UL 1,31
90 140 24 27 1,5 100,0 131,0 1,5 89 267 534 64,0 99,5 133,5 28,7 18,6 14 000 22 000 HC7018C.T.P4S.UL 1,25
90 140 24 39 1,5 100,0 131,0 1,5 146 438 876 165,0 245,0 315,0 27,1 17,6 12 000 19 000 HC7018E.T.P4S.UL 1,25
90 140 24 27 1,5 100,0 131,0 1,5 89 267 534 64,0 99,5 133,5 45,9 18,6 18 000 30 000 XC7018C.T.P4S.UL 1,25
90 140 24 39 1,5 100,0 131,0 1,5 146 438 876 165,0 245,0 315,0 43,3 17,6 15 000 24 000 XC7018E.T.P4S.UL 1,25
95 95 130 18 24 1,1 102,0 124,0 0,6 85 255 509 60,8 94,8 129,4 19,1 19,8 12 000 HS71919C.2RSD.T.P4S.UL 0,660
95 130 18 35 1,1 102,0 124,0 0,6 138 414 828 152,8 226,9 295,0 18,0 18,7 10 000 HS71919E.2RSD.T.P4S.UL 0,660
95 130 18 24 1,1 102,0 124,0 0,6 59 177 354 59,7 91,4 122,5 19,1 13,9 14 000 HC71919C.2RSD.T.P4S.UL 0,626
95 130 18 35 1,1 102,0 124,0 0,6 96 288 575 153,1 225,5 290,4 18,0 13,1 12 000 HC71919E.2RSD.T.P4S.UL 0,626
95 130 18 24 1,1 102,0 124,0 0,6 85 255 509 60,8 94,8 129,4 19,1 19,8 12 000 19 000 HS71919C.T.P4S.UL 0,660
95 130 18 35 1,1 102,0 124,0 0,6 138 414 828 152,8 226,9 295,0 18,0 18,7 10 000 17 000 HS71919E.T.P4S.UL 0,660
95 130 18 24 1,1 102,0 124,0 0,6 59 177 354 59,7 91,4 122,5 19,1 13,9 14 000 22 000 HC71919C.T.P4S.UL 0,626
95 130 18 35 1,1 102,0 124,0 0,6 96 288 575 153,1 225,5 290,4 18,0 13,1 12 000 19 000 HC71919E.T.P4S.UL 0,626
95 130 18 24 1,1 102,0 124,0 0,6 59 177 354 59,7 91,4 122,5 30,5 13,9 18 000 30 000 XC71919C.T.P4S.UL 0,626
95 130 18 35 1,1 102,0 124,0 0,6 96 288 575 153,1 225,5 290,4 28,7 13,1 16 000 26 000 XC71919E.T.P4S.UL 0,626
95 145 24 28 1,5 105,0 136,0 1,5 130 390 780 67,5 105,0 144,0 29,1 27,6 11 000 HS7019C.2RSD.T.P4S.UL 1,34
95 145 24 40 1,5 105,0 136,0 1,5 211 633 1266 170,0 252,0 328,0 27,4 26,1 9 500 HS7019E.2RSD.T.P4S.UL 1,34
95 145 24 28 1,5 105,0 136,0 1,5 89 267 534 65,0 101,0 135,0 29,1 19,3 13 000 HC7019C.2RSD.T.P4S.UL 1,28
95 145 24 40 1,5 105,0 136,0 1,5 146 438 876 169,0 249,0 321,0 27,4 18,3 11 000 HC7019E.2RSD.T.P4S.UL 1,28
95 145 24 28 1,5 105,0 136,0 1,5 130 390 780 67,5 105,0 144,0 29,1 27,6 11 000 18 000 HS7019C.T.P4S.UL 1,34
95 145 24 40 1,5 105,0 136,0 1,5 211 633 1266 170,0 252,0 328,0 27,4 26,1 9 500 16 000 HS7019E.T.P4S.UL 1,34
95 145 24 28 1,5 105,0 136,0 1,5 89 267 534 65,0 101,0 135,0 29,1 19,3 13 000 20 000 HC7019C.T.P4S.UL 1,28
95 145 24 40 1,5 105,0 136,0 1,5 146 438 876 169,0 249,0 321,0 27,4 18,3 11 000 18 000 HC7019E.T.P4S.UL 1,28
95 145 24 28 1,5 105,0 136,0 1,5 89 267 534 65,0 101,0 135,0 46,5 19,3 17 000 28 000 XC7019C.T.P4S.UL 1,28
95 145 24 40 1,5 105,0 136,0 1,5 146 438 876 169,0 249,0 321,0 43,9 18,3 14 000 22 000 XC7019E.T.P4S.UL 1,28
100 100 140 20 26 1,1 107,0 133,0 0,6 102 306 612 66,0 102,5 140,0 22,7 23,5 11 000 HS71920C.2RSD.T.P4S.UL 0,900
100 140 20 38 1,1 107,0 133,0 0,6 166 498 996 166,0 245,0 320,0 21,4 22,1 9 500 HS71920E.2RSD.T.P4S.UL 0,900
100 140 20 26 1,1 107,0 133,0 0,6 70 210 420 64,0 98,0 131,0 22,7 16,4 13 000 HC71920C.2RSD.T.P4S.UL 0,855
100 140 20 38 1,1 107,0 133,0 0,6 115 345 690 164,0 243,0 314,0 21,4 15,5 11 000 HC71920E.2RSD.T.P4S.UL 0,855
B
D
d
a
rs
rs
rs
rs
α
Contact angleα = 15°/25°
HS...C/EHC...C/EXC...C/E installation dimension
ra
raDada
installation dimension
ra
raDa
dad
B
a
rs
rs
α
Contact angleα = 15°/25°
HS...C/E.2RSDHC...C/E.2RSD
D
rs
rs
SLF-High-precision bearings | Page 66
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin dah12 DaH12 ramax L M S L M S dyn C stat Co grease oil bearing kg
100 100 140 20 26 1,1 107,0 133,0 0,6 102 306 612 66,0 102,5 140,0 22,7 23,5 11 000 18 000 HS71920C.T.P4S.UL 0,900
100 140 20 38 1,1 107,0 133,0 0,6 166 498 996 166,0 245,0 320,0 21,4 22,1 9 500 16 000 HS71920E.T.P4S.UL 0,900
100 140 20 26 1,1 107,0 133,0 0,6 70 210 420 64,0 98,0 131,0 22,7 16,4 13 000 20 000 HC71920C.T.P4S.UL 0,855
100 140 20 38 1,1 107,0 133,0 0,6 115 345 690 164,0 243,0 314,0 21,4 15,5 11 000 18 000 HC71920E.T.P4S.UL 0,855
100 140 20 26 1,1 107,0 133,0 0,6 70 210 420 64,0 98,0 131,0 36,3 16,4 17 000 28 000 XC71920C.T.P4S.UL 0,855
100 140 20 38 1,1 107,0 133,0 0,6 115 345 690 164,0 243,0 314,0 34,2 15,5 14 000 22 000 XC71920E.T.P4S.UL 0,855
100 150 24 29 1,5 110,0 141,0 1,5 134 402 804 70,0 109,0 149,5 29,4 28,6 11 000 HS7020C.2RSD.T.P4S.UL 1,40
100 150 24 41 1,5 110,0 141,0 1,5 215 645 1290 174,0 259,0 335,0 27,8 27,0 9 000 HS7020E.2RSD.T.P4S.UL 1,40
100 150 24 29 1,5 110,0 141,0 1,5 91 273 546 67,0 104,0 138,5 29,4 20,0 12 000 HC7020C.2RSD.T.P4S.UL 1,33
100 150 24 41 1,5 110,0 141,0 1,5 148 444 888 173,0 255,0 330,0 27,8 18,9 11 000 HC7020E.2RSD.T.P4S.UL 1,33
100 150 24 29 1,5 110,0 141,0 1,5 134 402 804 70,0 109,0 149,5 29,4 28,6 11 000 18 000 HS7020C.T.P4S.UL 1,40
100 150 24 41 1,5 110,0 141,0 1,5 215 645 1290 174,0 259,0 335,0 27,8 27,0 9 000 15 000 HS7020E.T.P4S.UL 1,40
100 150 24 29 1,5 110,0 141,0 1,5 91 273 546 67,0 104,0 138,5 29,4 20,0 12 000 19 000 HC7020C.T.P4S.UL 1,33
100 150 24 41 1,5 110,0 141,0 1,5 148 444 888 173,0 255,0 330,0 27,8 18,9 11 000 18 000 HC7020E.T.P4S.UL 1,33
100 150 24 29 1,5 110,0 141,0 1,5 91 273 546 67,0 104,0 138,5 47,1 20,0 16 000 26 000 XC7020C.T.P4S.UL 1,33
100 150 24 41 1,5 110,0 141,0 1,5 148 444 888 173,0 255,0 330,0 44,4 18,9 14 000 22 000 XC7020E.T.P4S.UL 1,33
105 105 145 20 27 1,1 112,0 138,0 0,6 104 312 624 68,0 106,5 145,0 22,9 24,2 11 000 18 000 HS71921C.T.P4S.UL 0,900
105 145 20 39 1,1 112,0 138,0 0,6 169 507 1014 172,0 255,0 332,0 21,5 22,8 9 000 15 000 HS71921E.T.P4S.UL 0,900
105 145 20 27 1,1 112,0 138,0 0,6 71 213 426 67,0 102,0 137,0 22,9 16,9 12 000 19 000 HC71921C.T.P4S.UL 0,850
105 145 20 39 1,1 112,0 138,0 0,6 117 351 702 171,0 253,0 327,0 21,5 16,0 11 000 18 000 HC71921E.T.P4S.UL 0,850
105 145 20 27 1,1 112,0 138,0 0,6 71 213 426 67,0 102,0 137,0 36,6 16,9 16 000 26 000 XC71921C.T.P4S.UL 0,850
105 145 20 39 1,1 112,0 138,0 0,6 117 351 702 171,0 253,0 327,0 34,5 16,0 14 000 22 000 XC71921E.T.P4S.UL 0,850
105 160 26 31 2,0 116,0 150,0 2,0 170 510 1020 76,0 120,0 162,0 38,3 36,4 10 000 17 000 HS7021C.T.P4S.UL 1,80
105 160 26 44 2,0 116,0 150,0 2,0 276 828 1656 190,0 285,0 369,0 36,1 34,4 8 500 14 000 HS7021E.T.P4S.UL 1,80
105 160 26 31 2,0 116,0 150,0 2,0 118 354 708 74,0 114,0 152,0 38,3 25,4 12 000 19 000 HC7021C.T.P4S.UL 1,70
105 160 26 44 2,0 116,0 150,0 2,0 192 576 1152 190,0 280,0 363,0 36,1 24,0 10 000 17 000 HC7021E.T.P4S.UL 1,70
105 160 26 31 2,0 116,0 150,0 2,0 118 354 708 74,0 114,0 152,0 61,3 25,4 15 000 24 000 XC7021C.T.P4S.UL 1,70
105 160 26 44 2,0 116,0 150,0 2,0 192 576 1152 190,0 280,0 363,0 57,8 24,0 13 000 21 000 XC7021E.T.P4S.UL 1,70
110 110 150 20 27 1,1 117,0 143,0 0,6 121 363 726 71,0 112,0 152,0 27,1 28,5 10 000 17 000 HS71922C.T.P4S.UL 1,00
110 150 20 40 1,1 117,0 143,0 0,6 196 588 1175 180,0 268,0 349,0 25,6 26,8 8 500 14 000 HS71922E.T.P4S.UL 1,00
110 150 20 27 1,1 117,0 143,0 0,6 83 249 498 70,0 107,0 144,0 27,1 19,9 12 000 19 000 HC71922C.T.P4S.UL 0,940
110 150 20 40 1,1 117,0 143,0 0,6 135 405 810 180,0 265,0 340,0 25,6 18,8 10 000 17 000 HC71922E.T.P4S.UL 0,940
110 150 20 27 1,1 117,0 143,0 0,6 83 249 498 70,0 107,0 144,0 43,4 19,9 15 000 24 000 XC71922C.T.P4S.UL 0,940
110 150 20 40 1,1 117,0 143,0 0,6 135 405 810 180,0 265,0 340,0 40,9 18,8 13 000 20 000 XC71922E.T.P4S.UL 0,940
B
D
d
a
rs
rs
rs
rs
α
Contact angleα = 15°/25°
HS...C/EHC...C/EXC...C/E installation dimension
ra
raDada
installation dimension
ra
raDa
dad
B
a
rs
rs
α
Contact angleα = 15°/25°
HS...C/E.2RSDHC...C/E.2RSD
D
rs
rs
SLF-High-precision bearings | Page 67
12. Measurement tables
Shaft dimension (mm) installation dimension (mm) preload (N) axial rigidity (N/µm) load rating (kN) speed limit (min-1) Code weight
d D B a rsmin dah12 DaH12 ramax L M S L M S dyn C stat Co grease oil bearing kg
110 110 170 28 33 2,0 121,0 159,0 2,0 174 522 1044 78,0 122,0 167,0 38,5 37,9 9 500 16 000 HS7022C.T.P4S.UL 2,20
110 170 28 47 2,0 121,0 159,0 2,0 280 840 1680 196,0 292,0 378,5 36,4 35,8 8 000 13 000 HS7022E.T.P4S.UL 2,20
110 170 28 33 2,0 121,0 159,0 2,0 118 354 708 76,0 117,0 157,0 38,5 26,5 11 000 18 000 HC7022C.T.P4S.UL 2,10
110 170 28 47 2,0 121,0 159,0 2,0 192 576 1152 195,0 287,0 370,0 36,4 25,0 9 000 15 000 HC7022E.T.P4S.UL 2,10
110 170 28 33 2,0 121,0 159,0 2,0 118 354 708 76,0 117,0 157,0 61,7 26,5 14 000 22 000 XC7022C.T.P4S.UL 2,10
110 170 28 47 2,0 121,0 159,0 2,0 192 576 1152 195,0 287,0 370,0 58,2 25,0 12 000 19 000 XC7022E.T.P4S.UL 2,10
120 120 165 22 30 1,1 128,0 157,0 0,6 127 381 762 78,0 122,0 165,0 28,2 30,6 9 000 15 000 HS71924C.T.P4S.UL 1,30
120 165 22 44 1,1 128,0 157,0 0,6 207 621 1242 196,0 291,0 379,0 26,8 28,8 8 000 13 000 HS71924E.T.P4S.UL 1,30
120 165 22 30 1,1 128,0 157,0 0,6 88 264 528 76,0 116,0 155,0 28,2 21,4 11 000 18 000 HC71924C.T.P4S.UL 1,23
120 165 22 44 1,1 128,0 157,0 0,6 143 429 858 195,0 288,0 371,0 26,6 20,2 9 000 15 000 HC71924E.T.P4S.UL 1,23
120 165 22 30 1,1 128,0 157,0 0,6 88 264 528 76,0 116,0 155,0 45,2 21,4 14 000 22 000 XC71924C.T.P4S.UL 1,23
120 165 22 44 1,1 128,0 157,0 0,6 143 429 858 195,0 288,0 371,0 42,6 20,2 12 000 19 000 XC71924E.T.P4S.UL 1,23
120 180 28 34 2,0 131,0 169,0 2,0 179 537 1074 82,5 128,0 175,0 39,6 40,6 8 500 14 000 HS7024C.T.P4S.UL 2,30
120 180 28 49 2,0 131,0 169,0 2,0 288 864 1728 207,0 305,0 398,0 37,3 38,3 7 500 12 000 HS7024E.T.P4S.UL 2,30
120 180 28 34 2,0 131,0 169,0 2,0 123 369 738 81,0 123,0 165,0 39,6 28,4 10 000 17 000 HC7024C.T.P4S.UL 2,10
120 180 28 49 2,0 131,0 169,0 2,0 199 597 1194 204,0 303,0 390,0 37,3 26,8 8 500 14 000 HC7024E.T.P4S.UL 2,10
120 180 28 34 2,0 131,0 169,0 2,0 123 369 738 81,0 123,0 165,0 63,4 28,4 13 000 20 000 XC7024C.T.P4S.UL 2,10
120 180 28 49 2,0 131,0 169,0 2,0 199 597 1194 204,0 303,0 390,0 59,7 26,8 11 000 18 000 XC7024E.T.P4S.UL 2,10
130 130 180 24 33 1,5 139,0 171,0 0,6 145 435 870 83,0 128,5 175,0 32,5 36,5 8 500 14 000 HS71926C.T.P4S.UL 1,80
130 180 24 48 1,5 139,0 171,0 0,6 238 714 1428 208,0 309,0 400,0 30,7 34,4 7 000 11 000 HS71926E.T.P4S.UL 1,80
130 180 24 33 1,5 139,0 171,0 0,6 100 300 600 82,0 124,0 164,0 32,5 25,6 9 500 16 000 HC71926C.T.P4S.UL 1,70
130 180 24 48 1,5 139,0 171,0 0,6 163 489 978 207,0 305,0 392,0 30,7 24,1 8 000 13 000 HC71926E.T.P4S.UL 1,70
130 180 24 33 1,5 139,0 171,0 0,6 100 300 600 82,0 124,0 164,0 52,1 25,6 12 000 19 000 XC71926C.T.P4S.UL 1,70
130 180 24 48 1,5 139,0 171,0 0,6 163 489 978 207,0 305,0 392,0 49,0 24,1 11 000 18 000 XC71926E.T.P4S.UL 1,70
130 200 33 39 2,0 142,0 189,0 2,0 228 684 1368 93,0 145,0 198,0 50,9 53,2 7 500 12 000 HS7026C.T.P4S.UL 3,70
130 200 33 55 2,0 142,0 189,0 2,0 368 1104 2208 234,0 347,0 450,0 48,0 50,2 6 700 10 000 HS7026E.T.P4S.UL 3,70
130 200 33 39 2,0 142,0 189,0 2,0 159 477 954 91,0 140,0 187,0 50,9 37,2 9 000 15 000 HC7026C.T.P4S.UL 3,50
130 200 33 55 2,0 142,0 189,0 2,0 257 771 1542 232,0 345,0 444,0 48,0 35,2 7 500 12 000 HC7026E.T.P4S.UL 3,50
130 200 33 39 2,0 142,0 189,0 2,0 159 477 954 91,0 140,0 187,0 81,4 37,2 12 000 19 000 XC7026C.T.P4S.UL 3,50
130 200 33 55 2,0 142,0 189,0 2,0 257 771 1542 232,0 345,0 444,0 76,8 35,2 10 000 17 000 XC7026E.T.P4S.UL 3,50
SLF-High-precision bearings | Page 68
13. High-precision cylindrical roller bearings
13.1. General
High-precision cylindrical roller bearings are manufactured in single and double-row design and represent ideal floating bearings. They are distinguished by a high radial stiffness.Besides use as floating bearing, they are also used where radially stiff, stable and high-precision bearings are required.The standard version of the bearings has a tapered bore for precise adjustment of radial play (taper 1:12). The desired radial clearance or radial pretensioning is thus adjusted by an axial shifting on the tapered shaft seat.There are moreover cylindrical roller bearings with cylindrical bore. The order designation does not include the „K“ (e.g. NN3012M.HP). The main dimensions correspond with the general rolling bearing dimenstional plans as per DIN 616 (ISO 15).
13.2. Heat treatment
The high-precision cylindrical roller bearings are heat-treated such that they can be used with operating temperatures of up to 150°C. Bearings with an outer diameter greater than 120mm are dimensionally stable up to 200°C.
13.3. Designs
Single-row high-precision cylindrical roller bearings are produ-ced in series N19 and N10. In case of design N, the inner ring has two ribs and the outer ring is without a rib.
Fig. 13.1. single-row high-precision cylindical roller bearing
Fig. 13.2. series of single-row high-precision cylindical roller bearing
N19..K N10..K
SLF-High-precision bearings | Page 69
13. High-precision cylindrical roller bearings
Double-row high-precision cylindrical roller bearings are pro-duced in series NN30 and NNU49 in accordance with DIN 5412-4. The NN designation implies that the bearing is dou-ble-row, the inner ring has three ribs, while the outer ring has not ribs. In case of design NNU, the outer ring has three ribs, while the inner ring is without a rib. Upon request, the outer ring can be delivered with a lubrica-tion groove and at least three lubrication holes. In this regard, an „S“ is indicated in the order designation after the code (e.g. NN3012K.S.M.HP). As a result, the lubricant can be supplied directly between the rollers.
Fig. 13.3. double-row high-precision cylindical roller bearing, series NN30
Fig. 13.4. double-row high-precision cylindical roller bearing, series NNU49Fig. 13.5. series of double-row high-precision cylindical roller bearing
NN30..K NNU49..K
SLF-High-precision bearings | Page 70
13. High-precision cylindrical roller bearings
13.4. Hybrid cylindrical roller bearings
The hybrid cylindrical roller bearings of the HCN10 series have ceramic cylindrical rollers.Their use significantly improves characteristics in terms of friction and wear and tear. This results in decreased lubri-cant stress and lower temperatures. For this reason, higher speeds are also permissible.
Fig. 13.9. Hybrid cylindrical roller bearing
SLF-High-precision bearings | Page 71
13. High-precision cylindrical roller bearings
13.5. Materials
In the standard design, the bearing rings and cylindrical rollers of the high-precision cylindrical roller bearings are made of vacuum degassed chromium steel 100Cr6 or 100CrMnSi6-4 in case of larger dimensions.
The high-precision cylindrical roller bearings usually have a solid brass cage guided by rolling elements. Upon request, PEEK cages can also be used for single-row high-precision cylindrical roller bearings.
Fig. 13.7. PEEK cage, single-row Fig. 13.8. brass cage, double-row
Fig. 13.6. brass cage, single-row
SLF-High-precision bearings | Page 72
14. Tolerances and tolerance classes
Tolerance class HP The cylindrical roller bearings have a high precision due to their use and thus exhibit a tolerance class HP. It sa-tisfies the tolerance class SP according to DIN 5412-4. Bearings with UP tolerance class can be manufactured for
applications with even greater demands according to DIN 5412-4. Upon request, the bearings are also available in other tolerance classes.
Inner ring (Dimensions in mm)
Nominal bore diameter
overto
18 30
30 50
50 80
80120
120 150
180 250
250 315
315 400
400 500
500 630
Tolerance class HP (Tolerances in μm)
Cylindrical bore deviation ∆dmp, ∆ds
0 -6
0 -8
0 -9
0 -10
0 -13
0 -15
0 -18
0 -23
0 -27
0 -30
Roundness Vdp/2 1,5 2 2,5 2,5 3,5 4 4,5 6 7 8
Tapered bore deviation ∆ds10 0
12 0
15 0
20 0
25 0
30 0
35 0
40 0
45 0
50 0
Roundness Vdp/2 1,5 2 2,5 2,5 3,5 4 4,5 6 7 8
Deviation ∆d1mp – ∆dmp4 0
6 0
6 0
8 0
8 0
10 0
12 0
12 0
14 0
16 0
Width deviation ∆Bs0
-1200
-1200
-1500
-2000
-2500
-3000
-3500
-4000
-4500
-500
Width variation VBs 5 5 6 7 8 10 13 15 17 20
Radial runout Kia 3 4 4 5 6 8 8 10 10 12
Variation in inclination of out-side cylindrical surface to bore Sd 8 8 8 9 10 11 13 15 17 20
Assembled bearing innerring face runout withraceway (axial runout)
Sia 8 8 8 9 10 13 15 20 23 25
Outer ring (Dimensions in mm)
Nominal outside diameter
overto
3050
5080
80120
120150
150180
180250
250315
315400
400500
500630
630800
Tolerance class HP (Tolerances in μm)
Deviation ∆Dmp, ∆Ds0
-70
-90
-100
-110
-130
-150
-180
-200
-230
-280
-35
Variation VDp/2 2 2,5 2,5 3 3,5 4 4,5 5 6 7 9
Radial runout Kea 5 5 6 7 8 10 11 13 15 17 20
Variation in inclination of outside cylindrical surface to outer ring side face
SD 8 8 9 10 10 11 13 13 15 18 20
Assembled bearing outer ring face runout with raceway (axial runout)
Sea 8 10 11 13 14 15 18 20 23 25 30
The width tolerances ∆Cs and VCs are identical to ∆Bs and VBs for the associated inner ring.
SLF-High-precision bearings | Page 73
14. Tolerances and tolerance classes
Inner ring (Dimensions in mm)
Nominal bore diameter
overto
18 30
30 50
50 80
80120
120 150
180 250
250 315
315 400
400 500
500 630
Tolerance class UP (Tolerances in μm)
Cylindrical bore deviation ∆dmp, ∆ds
0 -5
0 -6
0 -7
0 -8
0 -10
0 -12
0 -15
0 -19
0 -23
0 -26
Roundness Vdp/2 1,5 1,5 2 2 2,5 3 4 5 6 7
Tapered bore deviation ∆ds
6 0
7 0
8 0
10 0
12 0
14 0
15 0
17 0
19 0
20 0
Roundness Vdp/2 1,5 1,5 2 2 2,5 3 4 5 6 7
Deviation ∆d1mp – ∆dmp 2 3 3 4 4 5 6 6 7 8
Width deviation ∆Bs -25 -30 -40 -50 -60 -75 -100 -100 -100 -125
Width variation VBs 1,5 2 3 3 4 5 5 6 7 8
Radial runout Kia 1,5 2 2 3 3 4 4 5 5 6
Variation in inclination of out-side cylindrical surface to bore Sd 3 3 4 4 5 6 6 7 8 9
Assembled bearing innerring face runout withraceway (axial runout)
Sia 3 3 3 4 6 7 8 9 10 12
Outer ring (Dimensions in mm)
Nominal outside diameter
overto
3050
5080
80120
120150
150180
180250
250315
315400
400500
500630
630800
Tolerance class UP (Tolerances in μm)
Deviation ∆Dmp, ∆Ds0
-50
-60
-70
-80
-90
-100
-120
-140
-170
-200
-25
Roundness VDp/2 1,5 1,5 2 2 2,5 2,5 3 3,5 4,5 5 6,5
Radial runout Kea 3 3 3 4 4 5 6 7 8 9 11
Variation in inclination of outside cylindrical surface to outer ring side face
SD 2 2 3 3 3 4 4 5 5 6 7
Assembled bearing outer ring face runout with raceway (axial runout)
Sea 4 4 5 6 7 9 9 12 12 14 17
The width tolerances ∆Cs and VCs are identical to ∆Bs and VBs for the associated inner ring.
Tolerance class UP
SLF-High-precision bearings | Page 74
15. Bearing clearance
The bearings have a standard radial clearance C1 (smaller than normal play CN). Based on this bearing clearance, the bearings are not interchangeable, i.e. the outer rings cannot be switched out between the individual bearings as is the
case, e.g., with single-row cylindrical roller bearings. Both C1 and NA (for not interchangeable) is not indicated. Other radial clearances are available upon request.
Dimensions in mm
Nominal bore diameter
overto
24
24 30
30 40
40 50
50 65
65 80
80 100
100 120
120 140
140 160
160 180
180 200
200 225
225 250
250 280
280 315
315 355
355 400
400 450
450 500
500 560
560 630
630 710
710 800
with cylindrical bore (Bearing clearance in μm)
clearance group C1
overto
5 15
5 15
5 15
5 18
5 20
10 25
10 30
10 30
10 35
10 35
10 40
15 45
15 50
15 50
20 55
20 60
20 65
25 75
25 85
25 95
25 100
30 110
30 130
35 140
with tapered bore (Bearing clearance in μm)
clearance group C1
overto
10 20
15 25
15 25
17 30
20 35
25 40
35 55
40 60
45 70
50 75
55 85
60 90
60 95
65 100
75 110
80 120
90 135
100 150
110 170
120 190
130 210
140 230
160 260
170 290
Radial clearance of single-row and double-row high-precision cylindrical roller bearings C1
SLF-High-precision bearings | Page 75
16. Bearing design calculation
16.1. General
The design calculation for the basic load rating and service life of bearings is based on the standard DIN ISO 76 (Static Load Ratings) and DIN ISO 281 (Dynamic Load Ratings and Nominal Rating Life). These standards describe comprehen-sive design calculations. As a result, we will only focus on the fundamental design calculations below. These design calculations are used to provide an approximate assess-ment of a bearing.More in-depth bearing evaluations are possible by calcula-ting the Hertzian contact pressure between rolling elements and race while taking into account the actual lubrication conditions with the aid of specific calculation programs. Ple-ase contact our Design department in this regard.
16.3. Equivalent dynamic loading
If the bearings are subject to radial and axial loading at the same time, such loads are combined into an equivalent load for calculating the service life. There is only one radial load for high-precision cylindrical roller bearings. The equivalent dynamic loading of cylindrical roller bearings with contact angle = 0° is:
16.2. Nominal rating life
The bearing‘s rating life is indicated by the number of revo-lutions or hours of running until the bearing shows the first signs of damage. The most frequent causes are wear and tear, seizing up, and overheating due to overloading (me-chanical and thermal) as well as material fatigue. The most frequent cause for failure in high-speed applications is over-heating followed by the bearing seizing up. According to DIN ISO 281 the nominal service life of cylindrical roller bearings is calculated as follows:
L10Nominal rating life in millions of revolutions with 10% failure probability
L10h Nominal rating life in hours with 10% failure probability
Cr Dynamic radial load rating in N
Pr Dynamic equivalent radial loading in N
Fr Radial load in N
n Revolutions in min-1
L10= ( CrPr
)10/3 in millions revolutions
L10h=L10*106
60 * nin hours
Pr= Fr in N
SLF-High-precision bearings | Page 76
17. Installation tolerances for cylindrical roller bearings
17.1. Machining tolerances of the parts surrounding the bearingsThe high capacity of cylindrical roller bearings is only gua-ranteed if the accuracy of the relevant adjacent parts are ad-apted according to the precision of bearings. This is neces-sary since the rings of the cylindrical roller bearings adapt to the shape of the shaft or the housing bore. This can result in defects in form and misalignment, which in turn lead to increased operating temperatures. The higher the required speeds and levels of precision are for the bearing, the more these faults become evident. The average roughness Ra of the bearing seats must be complied with in order to ensure that the corresponding fit only varies very slightly in case of installation (smoothing of surfaces).
17.2. Guidelines for machining of cylindrical shafts
Fig. 17.1. Machining of cylindrical shafts
t3/300 B t3/300 A
t1
t2 AB
dd
A B
Nominal size of shaft d (in mm)
Tolerance class of bearing
overto
1830
3050
5080
80120
120180
180250
250315
315400
400500
500630
Dimensions and tolerances (in μm)
Dimension for d HP (SP) 3
-33,5
-3,54
-45
-56
-67
-78
-89
-910
-1011
-11
UP 2-2
2-2
2,5-2,5
3-3
4-4
5-5
6-6
6,5-6,5
7,5-7,5
8-8
Cylindrical form t1
HP (SP) 1 1 1,2 1,5 2 3 4 5 6 7
UP 0,6 0,6 0,8 1 1,2 2 2,5 3 4 5
Axial run-out t2
HP (SP) 1,5 1,5 2 2,5 3,5 4,5 6 7 8 9
UP 1 1 1,2 1,5 2 3 4 5 6 7
Concentricityt3
HP (SP) 4 4 5 6 8 10 12 13 15 16
UP 2,5 2,5 3 4 5 7 8 9 10 11
Average roughness Ra
HP (SP), UP 0,2 0,2 0,2 0,2 0,2 0,2 0,4 0,4 0,4 0,4
Installation tolerances of cylindrical shafts
SLF-High-precision bearings | Page 77
17. Installation tolerances for cylindrical roller bearings
Fig. 17.2. Machining of tapered shafts
A
B t2 A
t1
Ra
dk
1 : 12
L
Fig. 17.3. Machining of tapered shafts (detail)
dk
LATD/2
1 : 12
17.3. Guidelines for machining of tapered shafts
Nominal size of shaft d (in mm)
Tolerance class of bearing
overto
1830
3040
4050
5065
6580
80100
100120
120140
140160
160180
180200
Dimensions and tolerances (in μm
Dimension for dk
HP(SP), UP 7364
9480
10897
135122
159146
193178
225210
266248
298280
328310
370350
Roundness t1 HP(SP) 1 1 1 1,2 1,2 1,5 1,5 2 2 2 3
UP 0,6 0,6 0,6 0,8 0,8 1 1 1,2 1,2 1,2 2
Axial run-out t2
HP(SP) 1,5 1,5 1,5 2 2 2,5 2,5 3,5 3,5 3,5 4,5
UP 1 1 1 1,2 1,2 1,5 1,5 2 2 2 3
Average roughness Ra
HP(SP), UP 0,2 0,2 0,2 0,2 0,2 0,2 0,2 0,2 0,2 0,2 0,2
Installation tolerances of tapered shafts (1)
SLF-High-precision bearings | Page 78
17. Installation tolerances for cylindrical roller bearings
Nominal size of shaft d (in mm)
Tolerance class of bearing
overto
200225
225250
250280
280315
315355
355400
400450
450500
500560
560630
630710
Dimensions and tolerances (in μm)
Dimension for dk
HP(SP), UP 405385
445425
498475
548525
615590
685660
767740
847820
928900
1008980
10921060
Roundness t1 HP(SP) 3 3 4 4 5 5 6 6 7 7 8
UP 2 2 2,5 2,5 3 3 4 4 5 5 5
Axial run-out t2
HP(SP) 4,5 4,5 6 6 7 7 8 8 9 9 10
UP 3 3 4 4 5 5 6 6 7 7 8
Average roughness Ra
HP(SP), UP 0,2 0,2 0,4 0,4 0,4 0,4 0,4 0,4 0,4 0,4 0,4
Installation tolerances of tapered shafts (2)
Taper angle tolerance
Taper length in L (in mm)
Tolerance class of bearing > 16...25 > 25...40 > 40...63 > 63...100 > 100...160 > 160...250
Tolerances (in μm)
Taper angle tolerance ATD HP (SP) +2...+3,2
0+2,5...+4
0+3,2...+5
0+4...+6,3
0+5...+8
0+6,3...+10
0
UP +1,3...+20
+1,6...+2,50
+2...+3,20
+2,5...+40
+3,2...+50
+4...+6,30
SLF-High-precision bearings | Page 79
17. Installation tolerances for cylindrical roller bearings
17.4. Guidelines for machining of housing bores
D
B
A
A
D
ABt2
t1
t3/300t3/300
Abb. 17.4. Machining of housing bores
Nominal size of housing bore D (in mm)
Tolerance class of bearing
overto
3050
5080
80120
120180
180250
250315
315400
400500
500630
630800
Dimensions and tolerances (in μm)
Dimension for d HP (SP) 2
-93
-102
-133
-152
-183
-203
-222
-250
-290
-32
UP 1-6
1-7
1-9
1-11
0-14
0-16
0-17
0-20
0-22
0-24
Cylindrical form t1
HP (SP) 1,5 2 2,5 3,5 4,5 6 7 8 9 10
UP 1 1,2 1,5 2 3 4 5 6 7 8
Axial run-out t2
HP (SP) 2,5 3 4 5 7 8 9 10 11 12
UP 1,5 2 2,5 3,5 4,5 6 7 8 9 10
Concentricityt3
HP (SP) 4 5 6 8 10 12 13 15 16 18
UP 2,5 3 4 5 7 8 9 10 11 12
Average roughness Ra HP (SP), UP 0,2 0,4 0,4 0,4 0,4 0,8 0,8 0,8 1,6 1,6
SLF-High-precision bearings | Page 80
18. Installation
18.1. Preparation of installation
Super precision bearings fulfill the stringent requirements on cleanliness and precision. The bearings should be installed with the utmost care. Make sure that they are installed in a room that is as clean as possible and free of dust with regulated temperature. Prior to installing the bearings, the dimensional accuracy of the connecting parts must be checked. Only provide and use tools that are suited for installation. Only open the bearing packages right before the installation. Remove excessive anti-corrosion oil with the aid of a clean lint-free cloth. In case of multiple bearings, the inner rings cannot be interchanged.
18.2. Greasing of bearings
In case of greasing and incompatibility of the anti-corrosion oil with the provided grease, the bearings are to be washed using a low-viscosity oil or kerosene and dry. Afterwards, apply the recommended amount of grease evenly to the outer and/or inner contour of the cage between the rollers, use your fingers to spread the grease on the rollers while manually turning them. (The information on recommended amount of grease can be found in Section 23.2.3. Amount of grease).
18.3. Bearing installation
The cylindrical roller bearings with tapered bore have a greater bearing clearance compared to those with a cylindrical bore. The tapered inner rings are secured to the shaft taper by means of clamping nuts. Depending on how much they are displaced axially, the inner ring expands and the bearing can be installed with play, without play or even with pretensioning.
SLF-High-precision bearings | Page 81
18. Installation
Adjustment without envelop circle measuring device
Install the outer ring in the housing. Arbitrarily tension the inner ring with the roller race on the shaft taper and align it precisely in the housing. Measure the radial play by radially sliding the inner ring to the outer ring. Allow for the desired radial play or pretensioning by axially shifting the inner ring. In case of taper 1:12, the sliding dis-tance with solid shafts is approx. 20 times greater than the resulting radial expansion. Secure the bearing with an adap-ter ring in line with the adjustment using the envelop circle measuring device. The set radial play or pretensioning influences the attainable speed as follows:
Adjustment using envelop circle measuring device
To this end, the outer ring (series NN or N) is first installed in the housing and the race diameter is calculated. Subse-quently, the outer envelop circle diameter of the cylindrcal rollers are measured at the pretensioned inner ring with roller race. The difference between the race diameter and the en-velop circle diameter results in the current bearing play and/or pretensioning. The desired parameters can be adjusted by further axial displacement.The relevant dimension L must be calculated in order to be able to fix the bearing in this position with an adapter ring. For this purpose, the distance between the bearing‘s inner ring and shaft shoulder is measured at four measuring points staggered by 90°. After removing the inner ring, the smoo-thed adapter ring is slid onto the cylindrical part of the shaft between the shaft shoulder and inner ring. The inner ring is finally secured by means of a clamping nut.
Fig. 18.1. Adjustment with envelop circle measuring device
L
Single-row cylindrical roller bearings
Radial play / pretensioning Attainable speed
Pretensioning -5 bis 0 μm <0,75 * n(grease)
0 μm, free of play 0,75 to 1 * n(grease)
Radial play 0 to 5 μm 1 to 1,1 * n(grease)
Radial play 0 to 5 μm 1 * n(oil)
Double-row cylindrical roller bearings
Radial play / pretensioning Attainable speed
Pretensioning -5 bis 0 μm <0,5 * n(grease)
Radial play 0 to 2 * 10-5 * dm (mm) 0,5 bis 0,75 * n(grease)
Radial play 2 * 10-5 * dm to 4 * 10-5 * dm (mm) 0,75 bis 1 * n(grease)
Radial play 0 to 1 * 10-5 * dm (mm) 1 * n(oil)
Average bearing diameter dm = (d+D)/2
SLF-High-precision bearings | Page 82
19. Bearing labelling
19.1. Content and location of label
The rolling bearings usually have a labelling with the following contents:
• SLFbrandname • Productdesignation,e.g.„N1920K.M1.HP“ • Countryofproduction:MADEINGERMANY • In-plantinformationforproductionperiod,e.g.„121H“
The bearing label is usually located on the flat sides of the outer and inner rings.
Design
Bearing series
Bore size
Bore
Radial clearance
Precision
Cage
Direct lubrication
Design
N single-row, two ribs on inner ring, outer ring without rib, with steel rollers
HCN single-row, two ribs on inner ring, outer ring without rib, with ceramic rollers
NNU double-row, three ribs on outer ring, inner ring without rib, with steel rollers
NN double-row, three ribs on inner ring, outer ring without rib, with steel rollers
Bearing series
19 light series
10 medium series
49 light series
30 medium series
Bore size
06 6*5 = 30 mm
07 7*5 = 35 mm
08 8*5 = 40 mm
Bore
K taper 1 : 12
Direct lubrication
S lubrication groove and lubrication holes on outer ring
Cage
M1 Brass cage, roller-guided, single-row
ENPA Window cage made of PEEK, guide on outer ring, single-row
M Brass cage, roller-guided, double-row
Precision
HP Tolerance class SP, DIN 5412-4 (Standard)
UP Tolerance class UP, DIN 5412-4
Radial clearance
- Radial clearance C1NA, DIN 5412-4 (Standard)
C2 Radial clearance greater than C1NA, DIN 620-4
R10.30 Special radial clearance, shown in μm
NN 30 20 K S M. HP C2
19.2. Labelling schema for high-precision cylindrical roller bearings
SLF-High-precision bearings | Page 83
20. Converting other makes to SLF product designation
Make SLF FAG SKF SNFA NSK
Series
N19 N19... N19...
N10 N10... N10... N10.. N10.. N10..HS
NNU49 NNU49.. NNU49.. NNU49.. NNU49.. NNU49..
NN30 NN30.. NN30.. NN30.. NN30.. NN30..
Bore
taper 1 : 12 .K -K K KR K
Lubrication groove and lubrication holes in outer ring
Series N .S -S W33 E44
Series NN(U) .S -AS W33 E44
Cage
Brass (N) .M1 -M1 without MR without
PEEK (N) .ENPA -PVPA PHA TP T6
Brass (NN) .M -M without MB without
Precision
Tolerance class .HP.UP
-SP-UP
SPUP
P4P2
P4UP
Radial clearance
C1 (cyl. bore) without without without CC1 C1NA
C1 (tapered bore) without without without CC0 C1NA
C2 .C2 -C2 SPC2 CC2 C2NA
Special radial clearance (μm) Rx.x Rx.x CCG
SLF-High-precision bearings | Page 84
B
DE
rsrs
Jd
taper 1 : 12
N 10...KN 19...KHCN 10..K
taper 1 : 12
N 10...KN 19...KHCN 10..K
s
21. Measurement tables
Shaft dimension (mm) load rating (kn) speed limit (min-1) Code weight
d D B rsmin E J s C dyn Co stat grease oil bearing kg
30 30 55 13 0,6 48,5 38,7 1,9 20,7 21,0 19 000 22 000 N 1006K.M1.HP 0,130
30 55 13 0,6 48,5 38,7 1,9 16,5 16,8 24 000 28 000 HCN 1006K.M1.HP 0,120
35 35 62 14 0,6 55,0 44,4 2,0 25,7 27,5 16 000 18 000 N 1007K.M1.HP 0,170
35 62 14 0,6 55,0 44,4 2,0 20,6 22,0 22 000 25 000 HCN 1007K.M1.HP 0,150
40 40 68 15 0,6 61,0 49,7 2,1 29,9 32,7 15 000 17 000 N 1008K.M1.HP 0,210
40 68 15 0,6 61,0 49,7 2,1 23,9 26,2 20 000 24 000 HCN 1008K.M1.HP 0,190
45 45 75 16 0,6 67,5 55,4 2,2 35,5 40,0 13 000 15 000 N 1009K.M1.HP 0,260
45 75 16 0,6 67,5 55,4 2,2 28,4 32,0 17 000 19 000 HCN 1009K.M1.HP 0,230
50 50 72 12 0,6 66,5 57,9 1,8 22,4 27,5 13 000 15 000 N 1910K.M1.HP 0,150
50 80 16 0,6 72,5 60,5 2,2 36,5 42,4 12 000 14 000 N 1010K.M1.HP 0,280
50 80 16 0,6 72,5 60,5 2,2 29,2 33,9 16 000 18 000 HCN 1010K.M1.HP 0,250
55 55 80 13 1,0 73,5 64,1 1,9 25,0 31,5 12 000 14 000 N 1911K.M1.HP 0,210
55 90 18 1,0 80,5 67,7 2,5 41,3 49,7 11 000 13 000 N 1011K.M1.HP 0,440
55 90 18 1,0 80,5 67,7 2,5 33,0 39,8 14 000 16 000 HCN 1011K.M1.HP 0,400
60 60 85 13 1,0 78,5 69,1 1,9 26,0 34,0 11 000 13 000 N 1912K.M1.HP 0,220
60 95 18 1,0 85,5 72,6 2,5 44,9 56,8 10 000 12 000 N 1012K.M1.HP 0,470
60 95 18 1,0 85,5 72,6 2,5 35,9 45,5 13 000 15 000 HCN 1012K.M1.HP 0,410
65 65 90 13 1,0 83,5 74,1 1,9 29,0 40,0 10 000 12 000 N 1913K.M1.HP 0,240
65 100 18 1,0 90,5 77,6 2,5 44,7 57,0 9 500 11 000 N 1013K.M1.HP 0,500
65 100 18 1,0 90,5 77,6 2,5 36,0 46,0 12 000 14 000 HCN 1013K.M1.HP 0,450
70 70 100 16 1,0 92,5 81,0 2,3 36,5 49,0 9 500 11 000 N 1914K.M1.HP 0,380
70 110 20 1,0 100,0 83,9 2,5 64,6 81,0 9 000 10 000 N 1014K.M1.HP 0,670
70 110 20 1,0 100,0 83,9 2,5 51,6 64,8 12 000 14 000 HCN 1014K.M1.HP 0,590
75 75 105 16 1,0 97,0 86,0 2,3 38,0 53,0 9 000 10 000 N 1915K.M1.HP 0,410
75 115 20 1,0 105,0 88,9 2,5 66,6 85,0 8 500 9 500 N 1015K.M1.HP 0,710
75 115 20 1,0 105,0 88,9 2,5 53,3 68,0 11 000 13 000 HCN 1015K.M1.HP 0,630
80 80 110 16 1,0 102,5 91,0 2,3 39,0 56,0 8 500 9 500 N 1916K.M1.HP 0,430
80 125 22 1,0 113,5 95,8 3,0 77,1 98,5 7 500 8 500 N 1016K.M1.HP 1,00
80 125 22 1,0 113,5 95,8 3,0 61,7 78,8 10 000 12 000 HCN 1016K.M1.HP 0,880
85 85 120 18 1,0 110,5 97,9 2,5 52,1 74,8 7 500 8 500 N 1917K.M1.HP 0,600
85 130 22 1,0 118,5 100,7 3,0 78,4 103,2 7 500 8 500 N 1017K.M1.HP 1,04
85 130 22 1,0 118,5 100,7 3,0 62,7 82,6 10 000 12 000 HCN 1017K.M1.HP 0,920
21.1. High-precision cylindrical roller bearings, single-row
SLF-High-precision bearings | Page 85
B
DE
rsrs
Jd
taper 1 : 12
N 10...KN 19...KHCN 10..K
taper 1 : 12
N 10...KN 19...KHCN 10..K
s
21. Measurement tables
Shaft dimension (mm) load rating (kn) speed limit (min-1) Code weight
d D B rsmin E J s C dyn Co stat grease oil bearing kg
90 90 125 18 1,0 115,5 102,9 2,5 52,0 77,5 7 500 8 500 N 1918K.M1.HP 0,630
90 140 24 1,1 127,0 107,6 3,2 93,0 124,0 6 700 7 500 N 1018K.M1.HP 1,39
90 140 24 1,1 127,0 107,6 3,2 74,4 99,3 9 000 10 000 HCN 1018K.M1.HP 1,23
95 95 130 18 1,0 120,5 107,9 2,5 53,1 80,1 7 000 8 000 N 1919K.M1.HP 0,660
95 145 24 1,1 132,0 112,6 3,2 95,8 129,7 6 300 7 000 N 1019K.M1.HP 1,34
95 145 24 1,1 132,0 112,6 3,2 76,6 103,8 8 000 9 000 HCN 1019K.M1.HP 1,20
100 100 140 20 1,0 130,0 114,2 2,5 76,9 112,0 6 300 7 000 N 1920K.M1.HP 0,894
100 150 24 1,1 137,0 117,6 3,2 97,8 134,0 6 000 6 700 N 1020K.M1.HP 1,39
100 150 24 1,1 137,0 117,6 3,2 78,2 107,2 8 000 9 000 HCN 1020K.M1.HP 1,23
105 105 145 20 1,0 135,0 119,2 2,5 78,7 117,0 6 000 6 700 N 1921K.M1.HP 0,930
105 160 26 1,1 145,5 124,5 3,4 113,6 156,9 5 600 6 300 N 1021K.M1.HP 1,82
105 160 26 1,1 145,5 124,5 3,4 90,8 125,5 7 500 8 500 HCN 1021K.M1.HP 1,61
110 110 150 20 1,0 140,0 123,9 2,5 80,6 121,0 6 000 6 700 N 1922K.M1.HP 0,960
110 170 28 1,1 155,0 130,8 3,4 140,6 189,5 5 300 6 000 N 1022K.M1.HP 2,23
110 170 28 1,1 155,0 130,8 3,4 112,4 151,6 7 000 8 000 HCN 1022K.M1.HP 1,94
120 120 165 22 1,0 153,5 135,6 3,0 96,1 146,0 5 300 6 000 N 1924K.M1.HP 1,33
120 180 28 1,1 165,0 140,8 3,4 148,0 208,5 5 000 5 600 N 1024K.M1.HP 2,45
120 180 28 1,1 165,0 140,8 3,4 118,4 166,8 6 700 7 500 HCN 1024K.M1.HP 2,14
130 130 180 24 1,1 167,0 147,7 3,2 113,0 174,0 4 800 5 300 N 1926K.M1.HP 1,77
130 200 33 1,1 182,0 154,6 4,2 181,0 257,0 4 300 4 800 N 1026K.M1.HP 3,62
140 140 190 24 1,1 177,0 158,0 3,2 117,6 190,0 4 300 4 800 N 1928K.M1.HP 1,89
140 210 33 1,1 192,0 164,6 4,2 186,6 268,6 4 000 4 500 N 1028K.M1.HP 3,83
150 150 210 28 1,1 194,0 171,7 3,6 153,6 243,0 4 000 4 500 N 1930K.M1.HP 2,93
150 225 35 1,5 205,5 176,5 4,4 213,4 313,2 3 800 4 300 N 1030K.M1.HP 4,71
160 160 220 28 1,1 204,0 181,7 3,6 156,4 259,0 3 800 4 300 N 1932K.M1.HP 3,13
160 240 38 1,5 220,0 187,8 4,6 244,8 356,4 3 400 3 800 N 1032K.M1.HP 5,79
170 170 230 28 1,1 214,0 191,6 3,6 159,6 267,0 3 400 3 800 N 1934K.M1.HP 3,23
170 260 42 2,1 237,0 200,9 5,0 297,8 441,0 3 200 3 600 N 1034K.M1.HP 7,70
180 180 250 33 1,1 232,0 204,8 4,2 215,2 348,0 3 200 3 600 N 1936K.M1.HP 4,82
180 280 46 2,1 255,0 214,1 5,6 370,4 541,2 3 000 3 400 N 1036K.M1.HP 9,96
190 190 260 33 1,1 242,0 214,8 4,2 220,1 360,0 3 000 3 400 N 1938K.M1.HP 5,00
190 290 46 2,1 265,0 224,1 5,6 376,5 566,6 2 800 3 200 N 1038K.M1.HP 10,4
200 200 280 38 1,5 259,0 228,5 4,8 268,9 443,0 2 800 3 200 N 1940K.M1.HP 6,00
200 310 51 2,1 281,0 239,1 6,4 405,9 616,4 2 600 3 000 N 1040K.M1.HP 13,7
SLF-High-precision bearings | Page 86
B
DE
rsrs
Jd
taper 1 : 12
N 10...KN 19...KHCN 10..K
taper 1 : 12
N 10...KN 19...KHCN 10..K
s
21. Measurement tables
Shaft dimension (mm) load rating (kn) speed limit (min-1) Code weight
d D B rsmin E J s C dyn Co stat grease oil bearing kg
220 220 300 38 1,5 279,0 248,5 4,8 274,5 474,0 2 600 3 000 N 1944K.M1.HP 7,63
220 340 56 3,0 310,0 261,7 6,6 516,2 775,0 2 400 2 800 N 1044K.M1.HP 17,9
240 240 320 38 1,5 299,0 268,5 4,8 292,5 519,0 2 400 2 800 N 1948K.M1.HP 8,22
240 360 56 3,0 330,0 281,7 6,6 540,4 846,3 2 200 2 600 N 1048K.M1.HP 19,2
260 260 360 46 1,5 334,0 295,4 5,4 439,6 750,0 2 000 2 400 N 1952K.M1.HP 16,8
260 400 65 4,0 364,0 309,3 8,1 669,0 1057,0 1 900 2 200 N 1052K.M1.HP 28,6
280 280 380 46 1,5 354,0 313,1 5,4 459,4 800,0 1 900 2 200 N 1956K.M1.HP 14,6
280 420 65 4,0 384,0 329,3 8,1 708,8 1149,0 1 800 2 000 N 1056K.M1.HP 30,4
300 300 420 56 3,0 390,0 341,7 6,6 609,0 1061,0 1 700 1 900 N 1960K.M1.HP 23,1
300 460 74 4,0 420,0 355,7 8,7 906,0 1437,0 1 600 1 800 N 1060K.M1.HP 43,0
320 320 440 56 3,0 410,0 361,7 6,6 637,0 1133,0 1 600 1 800 N 1964K.M1.HP 24,9
320 480 74 4,0 440,0 375,7 8,7 920,0 1503,0 1 500 1 700 N 1064K.M1.HP 45,2
340 340 460 56 3,0 430,0 381,7 6,6 665,0 1204,0 1 500 1 700 N 1968K.M1.HP 26,3
340 520 82 5,0 475,0 402,7 9,3 1100,0 1795,0 1 400 1 600 N 1068K.M1.HP 60,7
360 360 480 56 3,0 450,0 401,7 6,6 662,0 1243,0 1 400 1 600 N 1972K.M1.HP 27,5
360 540 82 5,0 495,0 421,6 9,3 1132,0 1876,0 1 300 1 500 N 1072K.M1.HP 64,4
380 380 520 65 4,0 484,0 429,6 8,1 815,0 1500,0 1 300 1 500 N 1976K.M1.HP 40,0
380 560 82 5,0 515,0 441,6 9,3 1165,0 1958,0 1 300 1 500 N 1076K.M1.HP 66,8
400 400 540 65 4,0 504,0 449,6 8,1 815,0 1580,0 1 300 1 500 N 1980K.M1.HP 41,7
400 600 90 5,0 550,0 470,0 10,4 1435,0 2448,0 1 200 1 400 N 1080K.M1.HP 86,2
420 420 560 65 4,0 524,0 469,6 8,1 850,0 1630,0 1 200 1 400 N 1984K.M1.HP 43,5
420 620 90 5,0 570,0 489,7 10,4 1400,0 2400,0 1 100 1 300 N 1084K.M1.HP 90,7
440 440 600 74 4,0 558,0 497,2 9,1 1020,0 1960,0 1 100 1 300 N 1988K.M1.HP 60,2
440 650 94 6,0 597,0 513,5 10,8 1560,0 2750,0 1 100 1 300 N 1088K.M1.HP 106
460 460 620 74 4,0 578,0 517,2 9,1 1060,0 2080,0 1 100 1 300 N 1992K.M1.HP 62,6
460 680 100 6,0 624,0 536,5 11,6 1660,0 3000,0 1 000 1 200 N 1092K.M1.HP 120
480 480 650 78 5,0 605,0 541,0 9,5 1140,0 2240,0 1 000 1 200 N 1996K.M1.HP 73,1
480 700 100 6,0 644,0 556,4 11,6 1700,0 3100,0 0 950 1 100 N 1096K.M1.HP 125
500 500 670 78 5,0 625,0 561,0 9,5 1180,0 2360,0 1 000 1 200 N 19/500K.M1.HP 75,7
500 720 100 6,0 664,0 576,5 11,6 1760,0 3200,0 950 1 100 N 10/500K.M1.HP 130
SLF-High-precision bearings | Page 87
Page MF | SLF-High-precision bearings
21. Measurement tables
NN30..K
s
taper 1 : 12taper 1 : 12
NN30..K
B
ds
DE
dJ
rs
nsrs
taper 1 : 12
NNU49..K
B
ds
D
FdH
rs
nsrs
NNU49..K
s
taper 1 : 12
Shaft dimension (mm) load rating (kn) speed limit (min-1) Code weight
d D B rsmin E J F H ns ds s C dyn Co stat grease oil bearing kg
30 30 55 19 1,0 48,5 39,7 4,8 3,2 1,4 29 34 16 000 19 000 NN3006K.M.HP 0,191
35 35 62 20 1,0 55,0 45,4 4,8 3,2 1,4 36 44 14 000 17 000 NN3007K.M.HP 0,249
40 40 68 21 1,0 61,0 50,6 4,8 3,2 1,4 42 53 12 000 15 000 NN3008K.M.HP 0,303
45 45 75 23 1,0 67,5 56,3 4,8 3,2 1,7 54 72 11 000 14 000 NN3009K.M.HP 0,393
50 50 80 23 1,0 72,5 61,3 4,8 3,2 1,7 57 79 10 000 13 000 NN3010K.M.HP 0,426
55 55 90 26 1,1 81,0 68,2 4,8 3,2 1,9 71 100 9 000 11 000 NN3011K.M.HP 0,630
60 60 95 26 1,1 86,1 73,3 4,8 3,2 1,9 74 109 8 500 10 000 NN3012K.M.HP 0,674
65 65 100 26 1,1 91,0 78,2 4,8 3,2 1,9 77 114 8 000 9 500 NN3013K.M.HP 0,715
70 70 110 30 1,1 100,0 85,6 6,5 3,2 2,3 98 148 7 000 8 500 NN3014K.M.HP 1,04
75 75 115 30 1,1 105,0 90,6 6,5 3,2 2,3 99 155 6 700 8 000 NN3015K.M.HP 1,07
80 80 125 34 1,1 113,0 97,0 6,5 3,2 2,5 120 186 6 300 7 500 NN3016K.M.HP 1,50
85 85 130 34 1,1 118,0 102,0 6,5 3,2 2,5 125 201 6 000 7 000 NN3017K.M.HP 1,56
90 90 140 37 1,5 127,0 109,4 6,5 3,2 2,6 140 225 5 600 6 700 NN3018K.M.HP 2,05
95 95 145 37 1,5 132,0 114,4 6,5 3,2 2,6 144 234 5 300 6 300 NN3019K.M.HP 2,13
100 100 140 40 1,1 113,0 125,8 6,5 3,2 2,0 129 253 5 300 6 300 NNU4920K.M.HP 1,85
100 150 37 1,5 137,0 119,4 6,5 3,2 2,6 148 243 5 300 6 300 NN3020K.M.HP 2,28
105 105 145 40 1,1 118,0 130,8 6,5 3,2 2,0 128 261 5 300 6 300 NNU4921K.M.HP 1,92
105 160 41 2,0 146,0 125,2 6,5 3,2 2,6 195 314 4 800 5 600 NN3021K.M.HP 2,84
110 110 150 40 1,1 123,0 135,8 6,5 3,2 2,0 131 269 5 000 6 000 NNU4922K.M.HP 2,07
110 170 45 2,0 155,0 132,6 6,5 3,2 2,9 222 361 4 500 5 300 NN3022K.M.HP 3,61
120 120 165 45 1,1 134,5 150,5 6,5 3,2 2,3 175 341 4 500 5 300 NNU4924K.M.HP 2,75
120 180 46 2,0 165,0 142,6 6,5 3,2 3,1 242 416 4 300 5 000 NN3024K.M.HP 3,92
130 130 180 50 1,5 146,0 162,0 6,5 3,2 2,7 186 385 4 000 4 800 NNU4926K.M.HP 3,80
130 200 52 2,0 182,0 156,4 9,5 4,8 3,1 296 498 3 800 4 500 NN3026K.M.HP 5,80
140 140 190 50 1,5 156,0 172,0 6,5 3,2 2,7 190 398 3 800 4 500 NNU4928K.M.HP 4,05
140 210 53 2,0 192,0 166,4 9,5 4,8 3,4 299 520 3 600 4 300 NN3028K.M.HP 6,15
150 150 210 60 2,0 168,5 191,0 6,5 3,2 2,7 331 652 3 600 4 300 NNU4930K.M.HP 6,00
150 225 56 2,1 206,0 178,8 9,5 4,8 3,8 336 592 3 400 4 000 NN3030K.M.HP 7,53
160 160 220 60 2,0 178,5 201,0 6,5 3,2 2,7 331 676 3 400 4 000 NNU4932K.M.HP 6,40
160 240 60 2,1 219,0 190,2 9,5 4,8 4,3 376 669 3 200 3 800 NN3032K.M.HP 9,10
21.2. High-precision cylindrical roller bearings, double-row
SLF-High-precision bearings | Page 88
Page MF | SLF-High-precision bearings
21. Measurement tables
NN30..K
s
taper 1 : 12taper 1 : 12
NN30..K
B
ds
DE
dJ
rs
nsrs
taper 1 : 12
NNU49..K
B
ds
D
FdH
rs
nsrs
NNU49..K
s
taper 1 : 12
Shaft dimension (mm) load rating (kn) speed limit (min-1) Code weight
d D B rsmin E J F H ns ds s C dyn Co stat grease oil bearing kg
170 170 230 60 2,0 188,5 211,0 6,5 3,2 2,7 339 700 3 200 3 800 NNU4934K.M.HP 6,68
170 260 67 2,1 236,0 204,0 9,5 4,8 4,6 449 805 3 000 3 600 NN3034K.M.HP 12,5
180 180 250 69 2,0 202,0 222,0 9,5 4,8 3,2 404 856 3 000 3 600 NNU4936K.M.HP 9,89
180 280 74 2,1 255,0 218,2 12,2 6,3 4,8 566 996 2 800 3 400 NN3036K.M.HP 16,4
190 190 260 69 2,0 212,0 236,0 9,5 4,8 3,2 413 885 2 800 3 400 NNU4938K.M.HP 10,2
190 290 75 2,1 265,0 228,2 12,2 6,3 4,8 583 1039 2 600 3 200 NN3038K.M.HP 17,3
200 200 280 80 2,1 225,0 252,2 12,2 6,3 4,3 488 1040 2 600 3 200 NNU4940K.M.HP 14,5
200 310 82 2,1 282,0 242,0 12,2 6,3 5,7 655 1190 2 400 3 000 NN3040K.M.HP 22,2
220 220 300 80 2,1 245,0 272,2 12,2 6,3 4,3 505 1139 2 400 3 000 NNU4944K.M.HP 15,7
220 340 90 3,0 310,0 265,2 15,0 8,0 5,7 806 1454 2 200 2 800 NN3044K.M.HP 29,1
240 240 320 80 2,1 265,0 292,2 12,2 6,3 4,3 525 1206 2 200 2 800 NNU4948K.M.HP 16,8
240 360 92 3,0 330,0 285,2 15,0 8,0 6,1 838 1577 2 000 2 600 NN3048K.M.HP 31,6
260 260 360 100 2,1 292,0 325,6 15,0 8,0 5,4 755 1690 2 000 2 600 NNU4952K.M.HP 29,3
260 400 104 4,0 364,0 312,8 15,0 8,0 6,6 1073 2006 1 900 2 400 NN3052K.M.HP 46,2
280 280 380 100 2,1 312,0 345,6 15,0 8,0 5,4 764 1794 1 900 2 400 NNU4956K.M.HP 31,2
280 420 106 4,0 384,0 332,8 15,0 8,0 6,9 1085 2093 1 800 2 200 NN3056K.M.HP 49,7
300 300 420 118 3,0 339,0 379,0 17,7 9,5 6,3 1040 2380 1 700 2 000 NNU4960K.M.HP 48,7
300 460 118 4,0 418,0 360,4 17,7 9,5 7,5 1256 2402 1 600 1 900 NN3060K.M.HP 68,8
320 320 440 118 3,0 359,0 399,0 17,7 9,5 6,3 1084 2527 1 600 1 900 NNU4964K.M.HP 51,0
320 480 121 4,0 438,0 380,4 17,7 9,5 8,0 1330 2600 1 600 1 900 NN3064K.M.HP 74,2
340 340 460 118 3,0 379,0 419,0 17,7 9,5 6,3 1095 2670 1 500 1 800 NNU4968K.M.HP 56,3
340 520 133 5,0 473,0 409,0 17,7 9,5 8,8 1625 3220 1 400 1 700 NN3068K.M.HP 99,3
360 360 480 118 3,0 399,0 439,0 17,7 9,5 6,3 1137 2820 1 500 1 800 NNU4972K.M.HP 59,2
360 540 134 5,0 493,0 429,0 17,7 9,5 8,8 1665 3350 1 400 1 700 NN3072K.M.HP 104
380 380 520 140 4,0 426,0 470,0 17,7 9,5 7,2 1434 3620 1 400 1 700 NNU4976K.M.HP 87,5
380 560 135 5,0 513,0 449,0 17,7 9,5 9,1 1695 3480 1 300 1 600 NN3076K.M.HP 110
400 400 540 140 4,0 446,0 491,0 17,7 9,5 7,2 1490 3821 1 300 1 600 NNU4980K.M.HP 91,7
400 600 148 5,0 549,0 477,0 17,7 9,5 9,5 2160 4500 1 200 1 500 NN3080K.M.HP 143
420 420 560 140 4,0 466,0 511,0 17,7 9,5 7,2 1546 4022 1 300 1 600 NNU4984K.M.HP 95,4
420 620 150 5,0 569,0 497,0 17,7 9,5 10,0 2100 4520 1 200 1 500 NN3084K.M.HP 148
440 440 600 160 4,0 490,0 545,0 17,7 9,5 6,8 2010 5157 1 200 1 500 NNU4988K.M.HP 133
440 650 157 6,0 597,0 520,0 23,5 12,5 10,2 2460 5120 1 100 1 400 NN3088K.M.HP 170
SLF-High-precision bearings | Page 89
Page MF | SLF-High-precision bearings
21. Measurement tables
NN30..K
s
taper 1 : 12taper 1 : 12
NN30..K
B
ds
DE
dJ
rs
nsrs
taper 1 : 12
NNU49..K
B
ds
D
FdH
rs
nsrs
NNU49..K
s
taper 1 : 12
Shaft dimension (mm) load rating (kn) speed limit (min-1) Code weight
d D B rsmin E J F H ns ds s C dyn Co stat grease oil bearing kg
460 460 620 160 4,0 510,0 564,0 17,7 9,5 6,8 2092 5457 1 100 1 400 NNU4992K.M.HP 135
460 680 163 6,0 624,0 544,0 23,5 12,5 10,9 2610 5395 1 100 1 400 NN3092K.M.HP 197
480 480 650 170 5,0 534,0 593,0 17,7 9,5 7,2 2326 6113 1 100 1 400 NNU4996K.M.HP 156
480 700 165 6,0 644,0 564,0 23,5 12,5 11,2 2690 5860 1 000 1 300 NN3096K.M.HP 203
500 500 670 170 5,0 554,0 613,0 17,7 9,5 7,2 2258 5900 1 000 1 300 NNU49/500K.M.HP 161
500 720 167 6,0 664,0 584,0 23,5 12,5 11,7 2600 5840 1 000 1 300 NN30/500K.M.HP 212
SLF-High-precision bearings | Page 90
22. Terms and symbols according to DIN ISO 1132-1, DIN 620
22.1. Bore diameter 22.2. Shell diameter
d Nominal diameter of bore
ds Individual bore diameter
dsp Individual bore diameter in single plane
∆dsDeviation of individual bore diameter, difference between an individual bore diameter and the nominal diameter of the bore, ∆ds = ds – d
VdsVariation in bore diameter, difference between the largest and smallest individual bore diameter of an individual ring, Vds = dsmax - dsmin
dmAverage bore diameter, arithmetic mean of the largest and smallest of the individual bore diameters of an individual ring, dm = (dsmay + dsmin) / 2
∆dmDeviation of average bore diameter, difference between the average bore diameter and the nominal diameter of the bore, ∆dm = dm – d
dmpAverage bore diameter in a single plane, arithmetic mean of the largest and smallest individual bore diameter deter-minable in a radial plane, dmp = (dspmax + dspmin) / 2
∆dmpDeviation of average bore diameter in a single plane, differ-ence between the average bore diameter and the nominal diameter in a radial plane, ∆dmp = dmp – d
VdpVariation of individual bore diameter in a single plane, difference between the largest and smallest bore diameter determinable in a radial plane, Vdp = dpmax – dpmin
Vdmp
Variation of medium bore diameter, difference between the largest and smallest medium bore diameter determinable in individual radial planes respectively at an individual ring, Vdmp = dmpmax – dmpmin
Vdp/2 Roundness of a level
D Nominal diameter of shell (outer diameter)
Ds Individual shell diameter
Dsp Individual shell diameter in a single plane
∆DsDeviation of individual shell diameter, difference between an individual shell diameter and the nominal diameter of the shell, ∆Ds = Ds – D
VDsVariation of shell diameter, difference between the largest and smallest individual shell diameter of an individual ring, VDs = Dsmax – Dsmin
DmAverage shell diameter, arithmetic mean of the largest and smallest individual shell diameter of an individual ring, Dm = (Dsmax + Dsmin) / 2
∆DmDeviation of average shell diameter, difference between the average shell diameter and the nominal diameter of the shell, ∆Dm = Dm – D
Dmp
Average shell diameter in a single plane, arithmetic mean of the largest and smallest individual shell diameter determinable in a radial plane, Dmp = (Dspmax + Dspmin) / 2
∆Dmp
Deviation of average shell diameter in a single plane, difference between the average shell diameter and the nominal diameter of the shell in an individual radial plane, ∆Dmp = Dmp – D
VDp
Variation of individual shell diameter in a single plane, difference between the largest and smallest individual shell diameter determinable in an individual radial plane, VDp = Dpmax - Dpmin
VDmp
Variation of average shell diameter, difference between the largest and smallest average shell diameter determina-ble in individual radial planes respectively at an individual ring, VDmp = Dmpmax – Dmpmin
VDp/2 Roundness of a level
SLF-High-precision bearings | Page 91
22. Terms and symbols according to DIN ISO 1132-1, DIN 620
B Nominal width of inner ring
C Nominal width of outer ring
Bs Individual inner ring width
Cs Individual outer ring width
∆BsDeviation of individual inner ring width, difference between an individual inner ring width and the nominal width of the inner ring, ∆Bs = Bs – B
∆CsDeviation of individual outer ring width, difference between an individual outer ring width and the nominal width of the outer ring, ∆Cs = Cs – C
VBsVariation of inner ring width, difference between the largest and smallest actual individual ring width of an individual inner ring, VBs = Bsmax – Bsmin
VCsVariation of outer ring width, difference between the largest and smallest actual individual ring width of an individual outer ring, VCs = Csmax – Csmin
BmAverage inner ring width, arithmetic mean of the largest and smallest individual ring width determinable at an outer ring, Bm = (Bsmax + Bsmin) / 2
CmAverage outer ring width, arithmetic mean of the largest and smallest individual ring width determinable at an outer ring, Cm = (Csmax + Csmin) / 2
22.3. Width
Nominal chamter dimensions
rs Individual chamter dimensions
rsminSmallest individual chamter dimensions , smallest permissible and individual radial and axial chamter dimensions of a ring
rsmaxLargest individual chamter dimensions , largest permissible and individual radial and axial chamter dimensions of a ring
22.4. Corner radius
Ki
Variation in wall thickness between inner ring/race and bore, difference between the largest and smallest radial distance between the bore surface and the race on the outside of the inner ring, in middle of race
Ke
Variation in wall thickness between outer ring/race and outer ring/shell, difference between the largest and small-est radial distance between the shell surface and the race on the inside of the outer ring, in middle of race
22.5. Variation in wall thickness
SLF-High-precision bearings | Page 92
22. Terms and symbols according to DIN ISO 1132-1, DIN 620
22.6. Running accuracy
22.6.1. Radial run-out
22.6.2. Axial run-out
22.6.3. Lateral run-out
Kia
Radial run-out of the inner ring at the assembled bearing, difference between the largest and smallest radial distance between the bore surface of the inner ring, with different angle position of the inner ring, and a fixed point relating to the outer ring
Kea
Radial run-out of the outer ring at the assembled bear-ing, difference between the largest and smallest radial distance between the shell surface of the outer ring, with different angle position of the outer ring, and a fixed point relating to the inner ring
Sia
Axial run-out of the inner ring at the assembled bearing, difference between the largest and smallest axial distance between the reference side surface of the inner ring, with different angle positions of the inner ring, at a radial distance from the inner ring axis equal to half of the race diameter of the inner ring and at a fixed point relating to the outer ring
Sea
Axial run-out of the outer ring at the assembled bear-ing, difference between the largest and smallest axial distance between the reference side surface of the outer ring, with different angle positions of the outer ring, at a radial distance from the outer ring axis equal to half of the race diameterof the outer ring and at a fixed point relating to the inner ring
SdAxial run-out of the inner ring lateral surface to the bore (lateral run-out)
SDVariation in slope of the shell line to the reference side surface (lateral run-out)
SLF-High-precision bearings | Page 93
23. Lubrication
23.1. General
Both grease and oil may be used as lubricants. The lubricant is a load-bearing element that separates the rolling elements and sliding elements from one another.That‘s why it is necessary to ensure that lubricant is applied at all points of contact. In case of continuous lubrication, it also assumes the role of cooling at the same time. The choice of lubrication approach depends on the different ope-rating conditions, such as speeds, temperatures and loads.
23.1. Grease lubrication
Grease is normally used as lubricant if extremely high speeds are not to be expected, Advantages of grease include:
• Lesscomplexdesign • Lesssystemcomplexity •Possiblyoflifetimelubrication •Compactsizeforlubricationequipmentandseals •Environmentallyfriendly
Thanks to the constant advances and innovations made in lubricating greases, it has been possible to increase bearing speeds considerably. Greased and sealed bearings also of-fer the advantage of ensuring maximum cleanliness, since the interior of the bearing is protected against dirt.
23.2.1. Grease service life
A grease‘s effectiveness deteriorates during operation and thus has a corresponding impact of the bearing‘s operation. That‘s why the grease service life is regarded as a key factor for the fatigue life of bearings.
50 000
0,10 1,50,700,500,300,200,07 0,15
30 000
20 000
10 000
5 000
3 000
2 000
1 000
F10
kf • n • dm [min-1 • mm • 106]
ceramic ballssteel
balls
grease lifetime F10
kf 1 for N10 and N19
kf 2 for NN30 and NNU49
kf 0,75 for spindle bearings with contact angle 15°
kf 0,9 for spindle bearings with contact angle 25°
n Speed
dm medium bearing diameter (D+d)/2
SLF-High-precision bearings | Page 94
23. Lubrication
23.2.2. Running-in of grease
The performance of the bearings and thus their service life is influenced in a positive manner due to the careful commis-sioning of greased bearings. Running-in is recommended, which consists of running time and down time.This ensures both a uniform distribution of the lubricating grease and prevents bearings from overheating during operation. For higher speeds, the running-in process should be implemented first at 50% and then at 0.75 times the expected rotational speed. The necessary number of running-inprocessesmayvarydependingonthesizeandnumber of bearings as well as maximum speed and bearing environment.
In general, we recommend the following start/stop cycle:
If the steady-state temperature is still not achieved, additio-nal cycles are implemented with longer running periods and shorter downtimes.
Speed Run-time
Shutdown time
Repe-tition Total time
0,5 * nmax 20 s 2 min 5x 11 min 40 s
0,75 * nmax 20 s 2 min 5x 11 min 40 s
nmax 20 s 2 min 5x 11 min 40 s
nmax 30 s 2 min 10x 25 min
nmax 1 min 1 min 10x 20 min
SLF-High-precision bearings | Page 95
23. Lubrication
23.2.3. Amount of grease
TheamountofgreasecomplieswiththenormalfillquantityN of the spindle bearing and refer to approx. 50% of the trouble-free interior of the bearing.
Spindle bearings
bearing-series
HS719 HS70 B719 B70 B72
HC719 HC70 HCB719 HCB70 HCB72
XC719 XC70 XCB719 XCB70 XCB72
Borenumber Amount of grease in cm³ per bearing
02 0,25 0,43 0,16 0,31 0,47
03 0,29 0,55 0,16 0,42 0,63
04 0,41 0,92 0,31 0,7 1,2
05 0,5 0,87 0,36 0,8 1,4
06 0,64 1,38 0,39 1,16 2,2
07 0,94 2 0,74 1,52 2,9
08 1,56 2,5 1,12 2 3,7
09 1,71 3,6 1,31 2,8 4,4
10 1,77 4 1,45 2,7 4,2
11 2,4 5,5 1,88 3,6 6,3
12 2,5 5,3 2,3 4,1 7,8
13 2,7 6,4 2,4 4,2 8,9
14 4,4 8 4 7,1 9,6
15 5 9 4,4 7,5 12,5
16 4,3 9,8 4,1 10,2 11,9
17 7,6 12 6 9,9 17,8
18 7,7 14,9 6,1 11,5 18,5
Spindle bearings
bearing-series
HS719 HS70 B719 B70 B72
HC719 HC70 HCB719 HCB70 HCB72
XC719 XC70 XCB719 XCB70 XCB72
Borenumber Amount of grease in cm³ per bearing
19 8,8 17,2 6,7 13,3 25,3
20 10,8 16,6 10,2 12,3 26,4
21 12 23,1 10,1 14,4 35,2
22 13,2 26,5 9,5 20,7 42,6
24 16,1 28,5 14,2 21,2 37,6
26 20,8 41,1 16,4 35,5 40,6
28 25,6 46,3 15,6 37,6 56,8
30 37,8 57,1 26,5 42,9 78,9
32 39,9 69,7 28,8 55,9 99,8
34 30,4 62,7 117
36 45,5 91,1 122
38 48 95,1 151
40 67,8 114 182
44 65,6 166 243
48 70,8 178
52 113
56 121
SLF-High-precision bearings | Page 96
23. Lubrication
23.3. Oil lubrication
If the operating speed and temperature are greater than tho-se permitted for lubricating grease, oil lubrication should be used. Viable lubrication methods include oil/mist or oil/air lub-rication. Both types of lubrication methods ensure a minimum volume lubrication and thus the minimum friction losses. Gre-aterquantitiesofoilusedforcooling lubricationallowforagreater dissipation of heat from the bearing but also increase the bearing‘s performance loss at the same time. The lubri-cating oil must have sufficient viscosity in order to be able to provide a load-bearing lubricating film at the bearing‘s rolling surfaces and sliding surfaces. That said, the viscosity of the oil at operating temperature is decisive. The viscosity must be lower when the rotational speed is greater. The lubricating oil shall be selected according to the nominal viscosity at a refe-rencetemperatureof40°C.Oilshavinganominalviscosityof68 mm2/s are suitable, whereas the standard approach nowa-days is the oil/air lubrication method. The oils used must have apurityclassof13/10asinaccordancewithISO4406.Typicaloilquantitiesincludedependingoninjectionrateat3,5,10,30, 60 and 100 mm3and6to10injectionratesperhour.
High-precision cylindrical roller bearing
Bearing series N19 N10 NN30 NNU49
Bore number Amount of grease in cm³ per bearing
06 0,66 0,72
07 0,86 0,90
08 1,09 1,34
09 1,37 1,53
10 0,77 1,48 1,65
11 1,00 2,10 2,40
12 1,07 2,30 2,60
13 1,14 2,50 2,70
14 1,95 2,90 4,00
15 2,10 3,10 4,20
16 2,20 4,10 5,80
17 3,00 4,30 6,10
18 3,10 5,50 7,50
19 3,30 5,70 7,80
20 3,80 5,90 8,10 6,1
21 4,00 7,40 10,10 6,3
22 4,20 8,10 13,00 6,5
24 5,60 8,60 15,10 9,8
26 7,30 14,20 20,10 13,2
28 7,60 14,90 22,90 11,7
30 11,40 18,10 27,80 20,6
32 12,00 21,90 35,30 21,7
34 12,60 29,30 46,40 22,9
36 18,10 36,40 60,30 31,7
38 19,00 53,00 64,00 33,2
40 28,20 65,50 82,40 52,9
44 30,50 68,90 105,00 57,2
48 32,80 107,00 121,00 61,7
52 50,00 113,00 168,00 106,0
56 53,10 150,00 187,00 113,0 20 50020010010 50
10 000
3 000
1 000
300
100
30
bearing bore d mm
Oil q
uant
ity Q
mm
3 /h
Oil minimum quantity lubrication
SLF-High-precision bearings | Page 97
24. Terms of delivery .............. Outside Germany
Terms of delivery
Spindel- und Lagerungstechnik Fraureuth GmbH
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